Large shareholders and disclosure strategies: Evidence from IPO lockup expirations
Transcript of Large shareholders and disclosure strategies: Evidence from IPO lockup expirations
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Large Shareholders and Disclosure Strategies:Evidence from IPO Lockup Expirations
Yonca Ertimur, Ewa Sletten, Jayanthi Sunder
PII: S0165-4101(14)00029-9DOI: http://dx.doi.org/10.1016/j.jacceco.2014.06.002Reference: JAE1019
To appear in: Journal of Accounting and Economics
Received date: 11 December 2011Revised date: 23 May 2014Accepted date: 4 June 2014
Cite this article as: Yonca Ertimur, Ewa Sletten, Jayanthi Sunder, LargeShareholders and Disclosure Strategies: Evidence from IPO Lockup Expira-tions, Journal of Accounting and Economics, http://dx.doi.org/10.1016/j.jacce-co.2014.06.002
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Large Shareholders and Disclosure Strategies: Evidence from IPO Lockup Expirations*
Yonca Ertimur**
University of Colorado at Boulder
Ewa Sletten§
Boston College
Jayanthi Sunder#
University of Arizona
May 2014
Abstract: We examine the effect of large shareholders’ ex ante selling incentives on firms’ voluntary disclosure choices in the setting of IPO lockup expirations. We find evidence that managers delay disclosures of bad news, not for their own benefit, but to enable influential pre-IPO shareholders to sell their shares at more favorable prices. Delays are more pronounced when aggregate selling incentives are greater, when uncertainty is high, and when venture capitalists, influential investors with strong selling incentives, own more shares. Simultaneously, managers’ disclosure decisions reflect litigation concerns; no significant delays occur when litigation risk is high or when managers trade themselves.
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* We thank Stephen Baginski, Brian Cadman, Fabrizio Ferri, Mei Feng, Alan Jagolinzer, Jeff Ng, Chris Noe (the referee), Jong Chool Park, Sugata Roychowdhury, Katherine Schipper, Thor Sletten, Shyam V. Sunder, Mohan Venkatachalam, Beverly Walther, Ross Watts (the editor), an anonymous referee, and seminar participants at the AAA Annual Meetings, Multinational Finance Society Conference, Arizona State University, Columbia University, INSEAD, MIT Sloan Economics and Finance Seminar, Ohio State University, University of Colorado at Boulder, University of Southern California, University of Texas at Dallas, and University of Utah for their valuable comments. An earlier version of this paper was titled “Voluntary Disclosure Strategy around IPO Lockup Expirations.” ** Leeds School of Business, 419 UCB, 995 Regent Drive, Boulder, CO 80309. E-Mail: [email protected] § Corresponding author. 140 Commonwealth Ave, Fulton 520 D, Chestnut Hill, Ma 02482. E-Mail: [email protected] # 1130 E Helen St, Suite 301G, Tucson, AZ 85712. E-Mail: [email protected]
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1. Introduction
Previous studies (Noe 1999, Cheng and Lo 2006, and Rogers 2008) find that managers in
a position to benefit themselves through strategic disclosure do not do so, likely due to the
efficacy of insider trading regulations and the threat of shareholder litigation. However,
managers’ own profit is not the only potential incentive for strategic disclosure. Large
shareholders such as venture capitalists (VCs), private equity and hedge fund investors hold
considerable influence over management (Gompers and Lerner 2004; Brav, Jiang, Partnoy, and
Thomas 2008; Klein and Zur 2009), and it is an open question whether these shareholders exert
their influence to affect (and profit from) firms’ voluntary disclosure strategies. Our findings
suggest large shareholders influence managers of bad-news firms to delay disclosures when these
investors have high selling incentives, especially when litigation risk is low.
We focus on voluntary disclosures around IPO lockup expirations. Lockups are voluntary
agreements between the IPO firm and its underwriter prohibiting pre-IPO shareholders from
selling their stock for a contractually agreed period after the IPO. The lockup expiration provides
a powerful setting in which to identify large shareholders’ selling incentives and study their
effect on disclosure for the following reasons. First, large pre-IPO shareholders influence
managerial decisions through their ownership stakes, board membership, compensation
contracts, and relationships with management (Barry, Muscarella, Peavy, and Vetsuypens 1990;
Lerner 1995). Second, lockup expiration is associated with large-scale selling by pre-IPO
shareholders (Field and Hanka 2001). Third, lockup expiration dates are publicly known and
anticipated. This allows us to identify ex ante selling incentives of influential shareholders
around a specific date. Finally, newly-public firms are characterized by particularly high levels
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of information asymmetry between management and the firm’s dispersed shareholders, making
disclosure a powerful tool to influence the stock price at the time of selling.
Voluntary disclosure of private information affects the selling price for pre-IPO
shareholders through two channels. First, disclosure immediately affects the stock price when
news is released. As a result, pre-IPO shareholders favor releasing good news early and delaying
bad news in the lockup expiration quarter to maximize the stock price at the time of sale. Second,
disclosure affects information uncertainty about the firm, which, in turn, impacts how stock price
responds to selling (Kyle 1985). We refer to this phenomenon as “the price impact of selling.”
Recent empirical evidence suggests disclosure of bad news increases firm-specific uncertainty
(Brown, Hillegeist, and Lo 2009; Rogers, Skinner, and Van Buskirk 2009), which intensifies the
price impact of selling. Thus, to avoid increases in uncertainty and mitigate the price impact of
selling, pre-IPO shareholders have an added incentive to favor delaying the disclosure of bad
news until after they sell.
We study voluntary disclosure choices around IPO lockup expirations in the context of
quarterly management earnings forecasts. Management forecasts allow us to conduct precise
tests of the timing of a disclosure relative to an event because managers can preempt news
conveyed by quarterly earnings announcements by issuing forecasts during the quarter. As a
result, we are able to study whether managers accelerate or delay disclosures in the lockup
expiration quarter. Conditioning on whether earnings news is good or bad, we compare forecast
propensity in the lockup expiration quarter with that in benchmark quarters.
In both univariate and multivariate analyses, we find that, conditional on having bad
earnings news, the propensity to issue a forecast is approximately 36% lower in lockup
expiration quarters than in benchmark quarters. In contrast, managers do not accelerate
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disclosures of good news in lockup expiration quarters relative to benchmark quarters,
presumably because disclosure of good news is less credible (Hutton, Miller, and Skinner 2003)
and does not reduce firm-specific uncertainty (Rogers et al. 2009). Together, these results
suggest only bad-news firms choose a disclosure strategy that favors pre-IPO shareholders in the
lockup expiration quarter.
Selective disclosure in the lockup expiration quarter should vary with pre-IPO
shareholders’ ex ante selling incentives. We first study aggregate selling incentives, as captured
by predicted abnormal trading volume after the lockup expiration, and find firms are more likely
to delay disclosure in bad-news lockup expiration quarters as predicted trading volume increases
(i.e. as selling incentives increase). Next, because selling incentives and the ability to influence
disclosure strategy likely vary across shareholders, we shift our attention to the selling incentives
of different types of pre-IPO shareholders: VCs, managers, and all other pre-IPO shareholders,
hereafter the residual group. Prior literature suggests VCs both possess considerable influence
over managers and significantly reduce their ownership after the lockup expiration (Field and
Hanka 2001). Accordingly, we predict firms with a higher percentage of VC ownership locked-
up at the time of the IPO (i.e. stronger selling incentives) are more likely to delay disclosure in
bad-news lockup expiration quarters. Our findings are consistent with this prediction. In contrast,
our results suggest managers’ selling incentives do not affect disclosure strategy, consistent with
the evidence in Noe (1999) and Cheng and Lo (2006). Finally, we do not find a significant
relation between ownership of the residual group and disclosure choices, likely because of the
inherent heterogeneity of this group’s selling incentives and ability to influence disclosure
choices.
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We further expect the decision to delay disclosures of bad news to be shaped by litigation
risk and firm-specific uncertainty. Litigation risk can deter nondisclosure of bad news (Skinner
1994, 1997; Kasznik and Lev 1995; Field et al. 2005). Consequently, we predict bad-news firms
delay disclosures in response to high selling incentives only when the firm’s litigation risk is
relatively low. Our evidence supports this prediction. Similarly, we find bad-news firms delay
disclosures only when firm-specific uncertainty is high. This result is consistent with bad news
intensifying the price impact of selling through its effect on uncertainty. High uncertainty also
makes it easier for managers to delay disclosure without triggering scrutiny.
The use of ex ante proxies helps us to establish a causal relation between pre-IPO
shareholders’ selling incentives and strategic disclosure. In additional analyses, we test whether
forecast propensity is related to realized sales by readily identifiable pre-IPO shareholders: VCs
and managers. We find bad-news firms are more likely to delay disclosure if VCs sell a
significant fraction of their shares, but only when the managers do not also sell. This result is
likely driven by the asymmetry in SEC Rule 10b-5, which subjects managers but not VCs to
litigation risk associated with insider trading. Consequently, managers select disclosure strategies
that favor the selling incentives of large pre-IPO shareholders, but not when such strategies put
the managers themselves at risk. .
Delaying bad news disclosure benefits pre-IPO shareholders only if the adverse price
reaction to earnings news can be postponed until after these shareholders sell. Comparing stock
returns of bad-news firms with and without forecasts during the lockup expiration quarter, we
find two striking differences. First, non-disclosing firms delay the adverse stock price reaction
until earnings announcement (approximately -7%, on average) and therefore earn higher returns
during the lockup expiration quarter. Second, non-disclosing firms avoid any price impact of
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selling after lockup expiration while the price impact for forecasting firms is significantly
negative (approximately -4% at the average trading volume). Collectively, these results suggest
pre-IPO shareholders benefit from delayed disclosure of bad news.
Our study highlights how large investors’ short-horizon incentives affect managerial
disclosure choices. The findings suggest influential shareholders induce managers to undertake
disclosure strategies that do not result in direct benefits for the management, but instead profit
the shareholders. Specifically, we document firms are more likely to delay disclosure of bad
news when these shareholders possess strong selling incentives. Thus, some large and influential
shareholders are able to shape firms’ disclosure choices to their own benefit. This contrasts the
alternative strategy followed by transient institutional investors who invest in firms with higher
disclosure quality (Bushee and Noe 2000).
We also offer insights into how a previously-neglected cost of disclosure—exacerbating
firm-specific information uncertainty—affects disclosure strategies. Increases in uncertainty lead
to a greater price impact of selling after lockup expiration, providing an additional motive for
large shareholders to delay disclosures in bad-news lockup expiration quarters.
Finally, our paper contributes to the IPO literature by documenting that firms adopt
selective disclosure policies that favor pre-IPO shareholders. Gompers and Lerner (1998) suggest
VCs exit by distributing overvalued shares; our paper complements this finding by identifying a
mechanism—the disclosure or non-disclosure of information to the market—through which VCs
increase the value of their shares. Our findings have implications for other settings where large
active shareholders such as hedge funds and private equity investors could similarly influence
disclosure choices.
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The remainder of this paper proceeds as follows. Section 2 describes the institutional
background of our research setting and develops our hypotheses. Section 3 outlines our study’s
sample selection procedure. Sections 4 through 6 discuss our results, and Section 7 concludes.
2. Institutional background and hypothesis development
IPO firms typically enter into lockup agreements with their underwriters that restrict pre-
IPO shareholders from selling their shares for a specific period after the IPO.1 These restrictions
appear to be binding on average—trading volume spikes by 85% of previous average volume
when the lockup expires and eventually settles at approximately 40% higher than the lockup
period volume (Field and Hanka 2001; Bradley et al. 2001). The IPO literature attributes this
increase in trading volume to pre-IPO shareholders selling their shares for the first time.
The period following lockup expiration provides researchers with an ex ante proxy for
large shareholder selling incentives for at least two reasons. First, the lockup expiration date is
publicly known and specified in the IPO prospectus. Second, some large pre-IPO shareholders
sell a significant fraction of their shares in the lockup expiration quarter. For example, some VCs
distribute shares to their investors immediately upon lockup expiration (Gompers and Lerner
1998). These investors, in turn, sell their shares in the open market, generating abnormal trading
volume. As for non-VC backed firms, there is sustained abnormal trading volume for several
days following the lockup expiration (Field and Hanka 2001.
Pre-IPO shareholders benefit from executing sales at higher prices. While the lockup
date is publicly known, average abnormal returns following lockup expiration are negative—a
conundrum the finance literature has studied extensively.2 This drop in stock price erodes the
1 Brav and Gompers (2003) report lockup agreements in 99% of the firms in their sample of 2,871 IPOs. Most lockup periods are 180 days long. Field and Hanka (2001) find that the fraction of firms with a 180-day lockup period increased from 43% in 1988 to 91% in 1996. In our final sample of 776 IPO firms from 1995-2005, 92.5% of firms have the standard 180-day lockup period. 2 Prior studies examine several potential explanations for this price drop, including downward sloping demand curves, increase in bid-ask spreads, temporary price pressure from selling, and larger than expected sales by insiders (Bradley et al. 2001; Field and
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trading gains to the pre-IPO shareholders and creates particularly strong incentives for disclosure
strategies that allow these shareholders to sell shares at more favorable prices. Disclosing good
news early and delaying bad news until earnings announcements following the lockup expiration
will maximize trading gains for pre-IPO shareholders by altering investors’ assessments of firm
value (Ajinkya and Gift 1984; Waymire 1984; Lang and Lundholm 2000; Hutton et al. 2003;
Sletten 2012). Firms with bad news can delay disclosure without investors inferring the news as
long as the firms can pool with a group of good-news firms for which disclosure is particularly
costly, less credible, or whose managers possess only imprecise information and hence do not
disclose it (Verrecchia 1983; Dye 1985; Acharya, DeMarzo, and Kremer 2011).
Disclosure also affects investors’ uncertainty about firm value. While theory suggests
transparent disclosure reduces market uncertainty (Diamond and Verrecchia 1991), empirical
evidence contradicts this intuition, at least with respect to the disclosure of bad news (Brown,
Hillegeist, and Lo 2009; Rogers, Skinner, and Van Buskirk 2009).3 Rogers et al. (2009), for
example, find that, while good-news management forecasts do not have a significant effect on
uncertainty (measured by the implied volatility of stock options), bad-news forecasts lead to a
sustained increase in uncertainty until the subsequent earnings announcements. When coupled
with intense selling by pre-IPO shareholders, such increases in uncertainty can potentially hurt
stock prices. Specifically, theoretical models (e.g., Kyle 1985) predict a greater price impact of
selling when investors believe they are more informationally disadvantaged.4 Consistent with
Hanka 2001; Cao et al. 2004). While none of these fully explain the negative returns, Field and Hanka (2001) argue that abnormal returns around the unlock day are not large enough to be profitably arbitraged away. 3 Several explanations have been proposed in the finance literature for the increase in volatility after bad news events, a well-documented empirical finding. Black (1976) attributes it to the leverage effect resulting from the drop in price in response to the bad news. Christie (1982) and Schwert (1989) argue that this effect is small. Campbell and Hentschel (1992) propose a model for a volatility feedback explanation. Brown, Harlow, and Tinic (1988) find evidence consistent with this explanation when they document that returns to bad news tend to be larger than returns to good news. 4 In most microstructure models, the price impact of large trades arises from information asymmetry between informed investors and the price protection that less informed investors demand. In our tests, we do not distinguish between information asymmetry and overall uncertainty because of the empirical challenges of isolating the information asymmetry part of market uncertainty.
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this prediction, negative returns after lockup expirations are more pronounced among firms
characterized by greater information uncertainty (Bradley et al. 2001; Ofek and Richardson
2000). Therefore, delaying the disclosure of bad news until the next earnings announcement
mitigates the price impact of selling following lockup expiration and increases the trading gains
to pre-IPO shareholders.
These two effects lead to the following hypotheses:
Hypothesis 1A: Forecast propensity of firms with bad quarterly news is significantly lower in
the lockup expiration quarter than in quarters with normal levels of selling.
Hypothesis 1B: Forecast propensity of firms with good quarterly news is significantly higher
in the lockup expiration quarter than in quarters with normal levels of selling.
While, on average, pre-IPO shareholders possess strong selling incentives following the
lockup expiration, there are significant cross-sectional differences in the likelihood and the
magnitude of selling across firms. For example, Field and Hanka (2001) find firms with bigger
run-ups in stock price following an IPO, firms with VC-backing, and firms with more locked-up
shares experience greater selling. We expect the incentives to use selective disclosure to be
stronger among firms that, based on ex ante factors, are likely to experience high levels of selling
after lockup expiration. We hypothesize that:
Hypothesis 2: The strategy of delaying the disclosure of bad news and promptly releasing good
news in the lockup expiration quarter is more pronounced among firms with high aggregate
selling incentives.
Selling incentives vary not only across firms but also across different types of pre-IPO
shareholders. Because pre-IPO shareholders are restricted from selling their shares until after
Information asymmetry effects are likely to be high when there is greater uncertainty over firm value because the potential for private information is greater, and any incremental information potentially provides a significant advantage. Therefore, the overall uncertainty acts as an estimate of the upper bound of information asymmetry.
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lockup expiration, the higher the pre-IPO locked-up ownership of a specific shareholder, the
greater the number of shares available for selling or distribution after lockup expiration.
However, for these selling incentives to affect disclosure policy, pre-IPO shareholders must also
possess the ability to influence managers’ disclosure choices.
VCs are an easily identifiable group of pre-IPO shareholders who possess both significant
locked-up ownership at the time of the IPO and an ability to influence firms’ disclosure choices
before lockup expiration. Field and Hanka (2001) find VCs hold a significant fraction of shares
in IPO firms (23% on average) and, among large institutional or corporate shareholders, VCs are
the most likely to sell their shares in the year following the IPO. Further, VCs are typically active
shareholders; they not only finance the start-ups but also play a monitoring and advisory role and
are involved in strategic planning, managerial recruitment and training (Berlin 1998; Gorman
and Sahlman 1989; Hellmann and Puri 2000, 2002; Lerner 1995; Cadman and Sunder 2014).
Thus, VCs develop close ties to and command influence over management that passive
institutional investors are unlikely to enjoy. Consequently, we expect firms with a higher fraction
of locked-up shares held by VCs at the time of the IPO to be more likely to pursue a selective
disclosure strategy.
Managers are another group of pre-IPO shareholders who can benefit from strategic
disclosure choices. However, unlike VCs, whose distributions of shares are exempt from the
SEC’s Section 16 rules, managers face significant litigation risk stemming from SEC Rule 10b-5
and other insider trading regulation. Cheng and Lo (2006) argue that both disclosing good news
and withholding bad news prior to insider selling entail significant litigation risk. Consistent with
this argument, prior literature finds no evidence of firms strategically withholding bad news
before insider sales. In the case of good news, there is an association between disclosure and
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subsequent insider selling but this result is driven by managers timing trades following
disclosure of good news rather than strategically disclosing good news prior to their sales (Noe
1999; Cheng and Lo 2006). Thus, we do not expect the disclosure of good news and non-
disclosure of bad-news in the lockup expiration quarter to be related to shares locked held by
managers.
Various groups of shareholders other than VCs and management (e.g., corporate,
institutional, and angel investors, friends and family, as well as rank and file employees) also
likely have significant pre-IPO ownership in the firm. This residual group of shareholders is
heterogeneous with respect to selling incentives and ability to influence disclosure choices. We
therefore do not make a directional prediction about the relation between selective disclosure
behavior and the degree of locked-up ownership among the residual group of shareholders.
In summary, among various pre-IPO shareholders, VCs are a group of investors that is
clearly identifiable and has both strong incentives and the ability to influence the firms’
disclosure strategy. Consequently, we hypothesize that:
Hypothesis 3: The strategy of delaying the disclosure of bad news and promptly releasing good
news in the lockup expiration quarter is more pronounced for firms with higher locked-up VC
ownership at the time of the IPO.
Our hypotheses predict firms engage in strategic forecasting in response to ex ante selling
incentives. In additional analyses in Section 4, we explore the role of litigation risk and
uncertainty. Further, an extension of our hypotheses is, (i) conditional on the nature of the news,
ex post (realized) selling by pre-IPO shareholders is associated with firms’ disclosure choices,
and (ii) disclosure choices influence the timing of related stock returns (i.e., whether returns
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occur before or at the earnings announcement) as well as the price impact of trades after lockup
expiration. Sections 5 and 6 present the results associated with ex post selling.
3. Sample selection
Our sample period spans January 1995 through January 2008. We begin with firms in the
SDC database that conducted an IPO from January 1995 through December 2005. The lockup
expiration dates of these IPO firms fall from May 1995 through November 2006. We exclude
ADRs, unit offers, and firms that made secondary offerings during the lockup period. We merge
this dataset with CRSP and COMPUSTAT, which yields a sample of 2,973 firms. For these
firms, we obtain quarterly earnings announcement dates from COMPUSTAT and supplement
them with the dates from I/B/E/S when not available on COMPUSTAT.
For each of our sample firms, we next identify the announcement quarter in which the
lockup expires and, because this is the primary event quarter, we require the availability of
necessary data for this quarter.5 This restriction results in a sample of 2,308 firms. We then
extend this sample to include the quarter immediately preceding the lockup expiration quarter
and four subsequent quarters.6
We require the lockup expiration to be distinct from the earnings announcement and,
therefore, exclude firms for which the lockup expiration coincides with or falls within the 10
days preceding the earnings announcement. This restriction also ensures the pre-IPO
shareholders have sufficient time to trade after the lockup expires and before information is
released through the earnings announcement. We also exclude firms with lockup expirations
5 Announcement quarter is defined as the period starting on the day of the quarterly earnings announcement for quarter t-1 and ending on the day before the quarterly earnings announcement for quarter t. 6 Since the maximum length of a quiet period after the IPO in our sample period is 40 days, and the majority of IPO firms have lockups extending for 180 days, starting the sample only with the quarter immediately preceding the lockup expiration quarter alleviates concerns regarding the potential impact of the quiet period on forecast propensity.
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falling within the first ten days of the quarter because this period serves as our estimation
window for quarterly news. These filters result in a sample of 1,705 firms.
Finally, we require all firm-quarters in our sample to have the requisite data to compute
control variables. Among these, an important restriction pertains to our ability to compute
quarterly news: we only use firm-quarters with at least one one-quarter-ahead analyst forecast
issued in the first ten days of the quarter. We do this because we compute the news in the quarter
as the difference between the actual earnings announced at the end of the quarter and the
consensus of analysts’ forecasts of these earnings issued at the beginning of the quarter (see
Appendix A for a detailed definition of all variables). While requiring the availability of
analysts’ forecasts reduces our sample size, it allows us to capture the specific news pertaining to
quarterly earnings and produces a timelier estimate of quarterly news than alternatives (such as
earnings that follow a random walk) would permit. The final sample with required data available
consists of 776 unique IPO firms comprising 3,126 announcement quarters .
Table 1 provides descriptive statistics and univariate tests of differences between firm-
quarters with and without management forecasts. Mean analyst following is 4.74, suggesting a
reasonable level of analyst interest in our sample firms. Mean institutional ownership is 36%,
which is of a similar order of magnitude to descriptive statistics reported by Field and Lowry
(2009). Our sample firms are growth firms—mean Market-to-Book ratio is 4.42—with low levels
of profitability—the mean Return on Assets is -0.03. The magnitude of news seems to matter in
the disclosure decision: the magnitude of bad news is greater and that of good news is smaller in
firm-quarters with a forecast relative to firm-quarters without a forecast. Further, analyst
following is higher in firm-quarter observations where the firm provides a forecast. Finally, firm-
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quarter observations where firms provide forecasts are characterized by significantly higher
levels of litigation probability.
4. Firms’ propensity to issue management forecasts in the lockup expiration quarter
4.1 Is there evidence of selective disclosure in the lockup expiration quarter?
To test Hypotheses 1A and 1B, we compare the probability of forecasting during the
lockup expiration quarter to the probability of forecasting during the subsequent four quarters in
sub-samples of firm-quarters with good and bad news. To the extent managers receive news
early, they can voluntarily disclose it through a management forecast, or they can wait until the
end of the quarter to reveal the news at the earnings announcement.7 To measure the news during
the quarter and capture forecasting behavior, we divide each announcement quarter into two
periods. We measure the market’s expectations of earnings as the mean of analysts’ forecasts
issued over the first 10 days of the announcement quarter (news estimation window). We
categorize quarters where the actual earnings are less than (greater than or equal to) the market’s
expectations of earnings as Bad News (Good News) quarters.8,9 We use the remainder of the
quarter, beginning 11 days after the previous earnings announcement (forecast window), to
collect management forecasts, focusing on quantitative management forecasts that pertain to the
current quarter’s earnings per share (EPS) issued during the forecast window as captured by the
First Call Company Issued Guidelines Database (see Figure 1 for a timeline).
7 We focus exclusively on management forecasts as the channel through which managers communicate earnings news. Managers could provide information about components of performance that have implications for the current quarter earnings without providing direct guidance on earnings (e.g., through press releases about contracts won or lost). Analysts and investors also could partially infer earnings news that arises from industry- or economy-wide shocks without any forecasts. However, management forecasts are an important component of a firm’s disclosure strategy, particularly with respect to conveying earnings news (Beyer et al. 2010). Abstracting from other information channels is unlikely to introduce any systematic bias into our analyses. 8 Our Bad News and Good News variables are similar in spirit to the “expectations gap” measure in Kasznik and Lev (1995). Similar to our approach, Kasznik and Lev (1995) use the first 30 days of the announcement quarter to measure the market’s expectations of earnings and focus on the management forecasts issued in the remainder of the announcement quarter. 9 In untabulated tests, we confirm that the news conveyed in the forecast corresponds to the underlying quarterly news. Specifically, in good-news quarters, the median forecast news (measured as earnings forecast less analyst consensus over the first 10 days of the quarter, scaled by price) is 0.002, and the forecast news in bad-news quarters is -0.004.
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Table 2 presents the results of our univariate tests. Approximately 31% (=239/(239+537))
of Lockup Expiration and 37% (=723/(723+1,246)) of Post-Lockup Expiration firm-quarters
have bad news during the quarter. Of these bad-news Lockup Expiration firm-quarters 11.7%
have a quantitative EPS forecast compared with 4.5% of good-news Lockup Expiration firm-
quarters, consistent with evidence in the prior literature that bad-news firms are more likely to
disclose management forecasts in general (Kasznik and Lev 1995). More importantly, the mean
forecast propensity for firm-quarters with bad news is lower in the lockup expiration quarter than
in the post-lockup-expiration quarters: 11.7% versus 18.7%, with the difference significant at the
5% level based on two-sided t-tests. In contrast, the mean forecast propensity for good-news
firm-quarters is not significantly different between the lockup expiration and the post-lockup
expiration period: 4.5% versus 6.2%. Our sample of good-news quarters includes firm quarters
with no news (earnings realizations equal to beginning-of-quarter estimates). When we repeat
our tests after excluding no-news firm-quarters, we continue to find no support for Hypothesis
1B.10 Taken together, these findings are consistent with Hypothesis 1A but not consistent with
Hypothesis 1B. The lack of support for Hypothesis 1B is likely driven by the lower credibility of
good news (Hutton et al. 2003). Problems with credibility are likely to be particularly acute for
young IPO firms given just a brief or no forecasting history. Consistent with this explanation, we
find average returns to good-news forecasts in the lockup quarter are 0.3% and are statistically
indistinguishable from zero.
Table 2 also presents mean forecast propensity for pre-lockup-expiration quarters: 16.8%
for bad news and 4.6% for good-news quarters.11 Because forecasts are more frequent in the pre-
10 In further robustness analyses we reclassify quarters with forecasts that convey news inconsistent with the firm’s quarterly earnings news as no-forecast quarters and our inferences are unchanged. 11 We do not use these quarters that are entirely covered by the lockup provisions as a benchmark against which to evaluate disclosure strategies in the lockup quarter for two reasons. First, managers likely adjust their forecasting behavior during these quarters (e.g., by refraining from providing any forecasts) to have flexibility with respect to disclosure strategy in the lockup
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lockup quarter than in the lockup expiration quarter, a time-trend in forecasting propensity or an
increase in First Call coverage over a firm’s life are unlikely to explain our results (Chuk,
Matsumoto, and Miller 2013).12 We repeat the analysis in Table 2 for a constant sample of firms
for which we have observations in the pre-lockup, lockup-expiration and all four post-lockup
expiration quarters (not tabulated). We find that forecast propensity is stable across time for good
news quarters, ranging between 7.69% and 8.5%. In contrast, for firms with bad news, forecast
propensity drops from 20% in the pre-lockup period to 12.5% in the lockup-expiration quarter
and then increases to 19% in the post-lockup expiration quarters. Overall, we find strong
univariate evidence that managers delay disclosure of bad news in lockup expiration quarters.13
We also conduct multivariate analyses in which we estimate forecast propensity
separately for good and bad-news samples over event time (results not tabulated). We compare
forecasting behavior in the lockup expiration quarter with the subsequent quarters, after
controlling for other factors that may affect the propensity to issue forecasts (the same set of
control variables that we use in our cross-sectional tests described in Section 4.2.1). The results
of these multivariate analyses are similar to the univariate tests reported in Table 2. In particular,
we find the likelihood of disclosure is significantly lower during the lockup expiration quarter
relative to the post-expiration quarters. The results are economically significant—setting control
variables to their means, we document a 36% reduction in forecast propensity in the lockup
quarter. This is because management forecast practices are sticky—once a firm initiates quarterly earnings forecasts, investors expect the firm to continue forecasting on a quarterly basis (Bhojraj, Libby, and Yang 2011; Chen, Matsumoto, and Rajgopal 2010). Second, selling by pre-IPO shareholders is restricted in the pre-lockup expiration quarters. This alters both the benefits and the costs of selective disclosure—while there are no private gains to withholding bad news (decreasing the benefits of selective disclosure), litigation risk is likely lower in the absence of insider selling (decreasing the costs of selective disclosure). 12 Chuk et al. (2013) show that First Call coverage is not always complete but coverage limitations are not a significant concern for quantitative short-horizon EPS forecasts and for firms with high analyst following (i.e., the types of forecasts and firms that we study). Nevertheless, following their recommendation, we repeat our analysis from Table 2 on a subsample of quarters falling in or after 1998, when the First Call coverage is significantly broader, and find similar results. 13 Firms do not seem to alter the timing of forecasts within the quarter in the lockup expiration quarter relative to other quarters. In particular, firms in bad- (good-) news quarters in our sample issue their forecasts on average on the 57th (59th) day of the quarter which is statistically indistinguishable from the respective averages for the post-lockup quarters.
17
expiration quarter (statistically significant with p-value less than 0.05) for bad news firms. In
contrast, in the sample of good news firms, the likelihood of disclosure is not different during the
lockup expiration quarter relative to post-expiration quarters.
A potential concern with the tests of Hypotheses 1A and 1B is attrition in sample size
because of the data requirements to calculate the proxy for news during the quarter. We examine
the generalizability of our results to a broader sample using an alternative measure of news based
on market-adjusted returns over the window starting two days after the previous quarter earnings
announcement and ending one day after the current quarter earnings announcement. We classify
quarters where the excess returns, as defined above, are less than (greater than or equal to) zero
as bad (good) news quarters. This returns-based news measure yields results consistent with our
hypotheses (not tabulated). The drawback of the returns-based measure is that it captures both
news pertaining to the quarter’s earnings and to other news about future earnings and growth
prospects. Thus, unlike the analyst-forecast-based measure of news that we use in our reported
analysis, the returns-based measure does not correspond well to the earnings news firms convey
via management forecasts.
4.2 Does selective disclosure behavior vary with ex ante selling incentives in the lockup
expiration quarter?
4.2.1 Main tests
Hypothesis 2 predicts selective disclosure to be more pronounced among firms with
higher aggregate selling incentives. To capture aggregate selling incentives, we estimate a model
for abnormal volume, adapted from Field and Hanka (2001), in which we rely on ex ante factors
to explain the abnormal trading volume after lockup expiration. We find VC-backing, the
percentage of shares locked up, and stock price run-up to be significant determinants of selling
18
(see Appendix B for results).14 The fitted values from this model, Predicted Abnormal Volume,
serve as our proxy for aggregate selling incentives. Because our focus is the effect of cross-
sectional differences in selling incentives after lockup expiration on disclosure, we restrict the
sample to the lockup expiration quarters and estimate the following model separately for good-
and bad-news firms:
Forecast = �0 + �1 Predicted Abnormal Volume + �2-11 Controls + Year Fixed Effects + �������a�
Per Hypothesis 2, we expect the coefficient on Predicted Abnormal Volume, �1, to be
positive in the subsample of good-news firms and negative in the subsample of bad-news firms.
We further test whether disclosure varies with ex ante selling incentives of three groups
of pre-IPO shareholders: VCs, managers, and the residual group of shareholders. Hypothesis 3
predicts that strategic disclosure behavior will vary with the locked-up ownership of VCs. As
discussed in section 2, we do not expect a significant relation between disclosure and the locked
shares owned by managers because of substantial litigation risk. We remain agnostic with respect
to the residual group. In the sample of lockup expiration quarters, we estimate the following
model separately for good- and bad-news firms:
Forecast = �0 + �1 VC Ownership Locked % + �2 Manager Ownership Locked % +�3 Residual Ownership Locked % +�4-13 Controls + Year Fixed Effects + � (1b)
We measure VC Ownership Locked %, Manager Ownership Locked %, and Residual
Ownership Locked % as the percentage of ownership at the time of the IPO by VCs, managers
and the residual group of pre-IPO shareholders, respectively. Ownership by pre-IPO
shareholders is not available in machine-readable form. We therefore hand collect ownership
figures from the IPO prospectuses. We proxy for percentage of locked-up shares held by each
14 While trading volume is typically not synonymous with selling incentives, in the context of lockup expiration the additional trading volume has been attributed to selling of previously locked up shares. We base our model on factors that Field and Hanka (2001) find to be significant determinants of abnormal trading volume after lockup expirations.
19
group with the percentage of shares owned by respective groups at the time of the IPO.
Consistent with Hypothesis 3, we expect the coefficient on VC Ownership Locked, �1, to be
positive in the subsample of good-news firms and negative in the subsample of bad-news firms.
We include various control variables in Eqs. (1a) and (1b) motivated by prior literature.
First, to assess whether forecasting propensity increases with the magnitude of the news, we
include News Magnitude, the absolute value of the difference between actual earnings and
analysts’ expectations of earnings scaled by the beginning of the quarter price.
The second set of control variables captures the presence of key market participants that
can influence management forecast propensity. We control for Analyst Following because
disclosure quality is related to analyst following (Lang and Lundholm 1996; Healy, Hutton, and
Palepu 1999) and small, insider-dominated firms use disclosure to attract analysts (Graham,
Harvey, and Rajgopal 2005). We include institutional ownership (% of Institutional Ownership),
because the presence of institutions is usually positively associated with disclosure decisions
(Bushee and Noe 2000; Ajinkya, Bhojraj, and Sengupta 2005).
The third set of control variables captures firm characteristics identified in previous
literature as related to the decision to issue a management forecast. Litigation risk is an important
factor that increases the conditional likelihood of disclosing bad news (Skinner 1994; Field,
Lowry, and Shu 2005). We proxy for litigation risk using Litigation Probability, the fitted value
from the litigation probability model in Rogers and Stocken (2005), who focus on litigation
under SEC Rule 10b-5.15 We also include in the regressions firm size, market-to-book ratio,
15 We confirm the validity of using the Rogers and Stocken (2005) measure for our setting by examining the incidence of securities class-action lawsuits involving our sample firms over the two years following their IPOs. We find that the frequency of lawsuits related to disclosure choices for the above and below median litigation probability samples are 22.4% and 7.47%, respectively. The difference is statistically significant, suggesting that the Rogers and Stocken (2005) model successfully captures litigation probability for our sample of newly public firms. Our results are also robust to using an alternative measure of litigation risk introduced by Francis, Philbrick, and Schipper (1994), which is based on industry classification.
20
profitability, financial health, and uncertainty (Kasznik and Lev 1995; Bamber and Cheon 1998;
Miller 2002; Ajinkya, Bhojraj, and Sengupta 2005; Hribar and Yang 2010).
Finally, we control for the regulatory environment. Specifically, given the impact of
Regulation Fair Disclosure (hereafter “FD”) on firms’ voluntary disclosures (Heflin,
Subramanyam, and Zhang 2003; Mohanram and Sunder 2006), we control for the shift in
regulatory regime with an indicator variable, After Regulation FD, equal to one if the
announcement quarter ends after the enactment of Regulation FD (October 23, 2000) and zero
otherwise. We also include year fixed effects.
Table 3 reports the results from estimating Eqs. (1a) and (1b). Models 1a and 1b report
the results with Predicted Abnormal Volume as a proxy for aggregate selling incentives of pre-
IPO shareholders. Models 2a and 2b focus on selling incentives of three separate groups of
shareholders captured by VC Ownership Locked %, Manager Ownership Locked %, and
Residual Ownership Locked. When Predicted Abnormal Volume is the variable of interest, we
use all lockup quarter observations. However, models 2a and 2b require ownership data and we
are able to retrieve it only for 571 firms (173 firms with bad news in the lockup expiration
quarter and 398 firms with good news). The attrition is mostly due to the fact that some of our
sample firms had IPOs in 1995 or early 1996 and do not have filings available on the EDGAR
database.
As expected, in the case of firms with bad news in the lockup expiration quarter, the
propensity to delay the news is increasing in both aggregate selling incentives and in the selling
incentives of large, influential shareholders (VCs). The coefficients on Predicted Abnormal
Volume (Model 1a) and VC Ownership Locked % (Model 2a) are negative, and the
corresponding marginal effects are significant, with p-values less than 0.05. The marginal effects
21
suggest that a one standard deviation increase in Predicted Abnormal Volume (VC Ownership
Locked %) reduces the probability of forecasting by approximately 59% (17%) of the average
forecasting probability in the lockup expiration quarter. Manager Ownership Locked % and
Residual Ownership Locked % are not significantly associated with forecast propensity in the
lockup expiration quarter. In summary, strategic disclosure behavior documented in Table 2 is
more pronounced among bad-news firms with stronger aggregate selling incentives, as well as
firms with greater VC ownership.
As for firms with good news in the lockup expiration quarter, the propensity to issue a
management forecast is not associated with selling incentives as captured by Predicted Abnormal
Volume and VC Ownership Locked %. This finding is consistent with results in Table 2 that, for
good news firms, disclosure behavior is not significantly different in lockup expiration quarters
than in subsequent quarters with normal levels of selling incentives.
4.2.2 Variation with litigation risk and uncertainty
While the incentives to withhold bad news increase in selling incentives, prior literature
suggests firms with bad quarterly news consider additional factors in deciding whether to
disclose the news. These factors include litigation risk (Skinner 1994, 1997; Kasznik and Lev
1995; Field et al. 2005) and firm-specific uncertainty (Rogers et al. 2009). Wary of legal
consequences of nondisclosure, managers in firms subject to high litigation risk may be more
reluctant to delay the disclosure of bad news. Litigation risk matters especially to IPO firms,
which can be sued under Section 11 as well as Section 10b-5 of the Securities Exchange Act of
1934. Section 11 relates to disclosures made in the IPO prospectus (Lowry and Shu 2002), while
Section 10-b5 covers subsequent disclosures and bans any act or omission resulting in fraud or
deceit in connection with the purchase or sale of securities. Consequently, we expect the delays
22
in disclosure of bad news to occur only at firms with high selling incentives among pre-IPO
shareholders and low firm-specific litigation risk.
We explore the role of litigation risk by estimating variants of Eq. (1a) and (1b). In
particular, we examine the effect of selling incentives separately for firms with high and low
litigation risk during the lockup expiration quarter by splitting Predicted Abnormal Volume and
VC Ownership Locked % into two mutually exclusive variables that capture selling incentives for
either low or high litigation risk groups.16 We expect the negative relation between likelihood of
bad-news disclosure and selling incentives to be driven by firms with low litigation risk
(Predicted Abnormal Volume x Low, VC Ownership Locked % x Low).
The results are reported in Table 4, Models 1a and 2a. They indicate firms with high risk
of litigation do not alter their disclosure patterns even when selling incentives are high; the
coefficients and marginal effects (not reported) on Predicted Abnormal Volume x High and VC
Ownership Locked % x High are not significantly different from zero. In contrast, firms that face
low risk of litigation are less likely to disclose bad news during the lockup-expiration quarter
when selling incentives are high. The coefficient and marginal effects on Predicted Abnormal
Volume x Low and on VC Ownership Locked % x Low are negative and significant, with p-values
less than 0.01 and 0.05, respectively. These results underscore that litigation risk deters firms
from withholding bad news (Skinner 1994; Field et al. 2005).
Firm-specific uncertainty may also affect decisions to delay the disclosure of bad news.
To the extent that high uncertainty translates into greater information asymmetry between
managers and dispersed shareholders, managers’ ability to delay disclosure of bad news until
earnings announcements will be stronger in firms with high uncertainty. More importantly for
16 We tabulate results in which high and low litigation risk and uncertainty are defined as above and below the mean respectively. However, the inferences in this section are unchanged if we define the high versus low groups based on medians.
23
our setting, greater uncertainty is associated with more pronounced negative returns after lockup
expiration (Bradley et al. 2001; Ofek and Richardson 2000), creating even stronger incentives for
selective disclosure that mitigates these returns. Further, the negative effect of uncertainty on
lockup expiration returns should be particularly pronounced when coupled with intense selling
(Kyle 1985). Considering these combined effects, we expect that selective disclosure strategy
will be concentrated among firms with high selling incentives and high uncertainty.
We estimate expanded versions of Eq. (1a) and (1b), where we split the two proxies for
ex ante selling incentives into two groups based on the level of uncertainty at the start of the
quarter. We measure uncertainty as the standard deviation of daily stock returns in the quarter
preceding the lockup expiration quarter. Model 1b includes Predicted Abnormal Volume x High
and Predicted Abnormal Volume x Low and Model 2b includes VC Ownership Locked % x High
and VC Ownership Locked % x Low. We expect the negative relation between likelihood of
disclosure and selling incentives to be driven by bad-news firms with high uncertainty.
Table 4 Models 1b and 2b present the results. The coefficient and the marginal effect on
Predicted Abnormal Volume x High are negative and significant, with p-values less than 0.01,
while the coefficient and marginal effect on Predicted Abnormal Volume x Low do not differ
significantly from zero. Similarly, the coefficient and the marginal effect on VC Ownership
Locked % x High are negative and significant, with p-values less than 0.05. Surprisingly, the
coefficient of VC Ownership Locked % x Low is also negative, but it is only marginally
significant (at 10% level). Overall, the results in Models 1b and 2b are consistent with firms not
wanting to exacerbate the already high level of uncertainty with bad-news disclosures when they
expect intense selling after lockup expiration.
24
To summarize, the results in Tables 3 and 4 show that the nondisclosure of bad news is
more pronounced when the aggregate selling incentives and selling incentives of VCs are
greater. This effect is economically significant and is concentrated among firms subject to either
low litigation risk or high uncertainty.
5. Is strategic disclosure behavior associated with higher realized sales?
Unlike the ex ante proxies for selling incentives, realized sales cannot be used to draw
causal inferences about the drivers of the selective disclosure behavior (Noe 1999; Cheng and Lo
2006). Nevertheless, examining the association between realized sales by pre-IPO shareholders
and strategic withholding of bad news is a natural extension of our hypotheses. If selective
disclosure in the lockup expiration quarter enables pre-IPO shareholders to reduce their holdings
at favorable terms, we should observe greater realized sales by large shareholders of the firms
that did not forecast their bad news.
We study the sales of VCs, managers, and the residual shareholders as a function of news
and disclosure behavior in a joint framework using the following model:
Forecast = �0 + �1 Venture Capital High Sell + �2 Manager Sell +�3 Manager Sell x Venture Capital High Sell +�4 Residual Abnormal Volume +�5-14 Controls + Year Fixed Effects + �
(2)
We estimate the above regression in the lockup expiration quarter separately for good-
news and bad-news firm-quarters. Venture Capital High Sell is an indicator variable that captures
above average decrease in VC ownership after lockup expiration. Manager Sell is an indicator
variable that takes the value of one if there are net sales by officers of the firm in the lockup
expiration quarter and zero otherwise.17 We rely on Thompson Reuters for data on trading by
officers and hand-collect VC ownership from IPO prospectuses and post-IPO proxy statements
17 In our sample, managers own shares in the vast majority of IPO firms (83%) but sell shares only in 19% of firms, in line with the 17% reported by Field and Hanka (2001). In bad-news quarters, the fraction of IPO firms with managers selling after lockup expiration is even lower: approximately 11%.
25
(Appendix C describes the data collection and the issues regarding the nature of the VC
ownership data.) We also construct a variable to approximate selling by the residual group of
pre-IPO shareholders, Residual Abnormal Volume, defined as the aggregate abnormal volume
over the trading window less the change in ownership by VCs and sales by managers.
Table 5 reports the results of the estimation. The likelihood of forecasting is significantly
lower for bad-news firms where VCs sell or distribute a substantial fraction of their shares and
managers of the firm do not sell (i.e., Venture Capital High Sell equals one, and Manager Sell
equals zero). In contrast, when both VCs and managers sell, the likelihood of forecasting bad
news is significantly higher than in quarters with only VC selling. We implement the correction
suggested by Norton, Wang, and Ai (2004) to interpret the significance of the interaction term,
Manager Sell x Venture Capital High Sell. We find the z-statistic on the interaction term is
always positive, and the significance exceeds conventional thresholds for most of the range of
predicted probabilities (0.3 and higher; results not tabulated). These results suggest that
managers delay disclosures of bad news, not for their own benefit, but to enable VCs to sell their
shares at better prices. Even though managers sell relatively infrequently in our setting, when
they do sell, they also disclose bad news to avoid litigation risk stemming from SEC Rule 10b-5.
Thus, managers adjust disclosure policies to benefit large shareholders only when such actions
do not put the managers themselves at risk. We find no association between Residual Abnormal
Volume and the propensity to issue a forecast in bad-news or good-news lockup expiration
quarters. Overall, the evidence in Table 5 strengthens the conclusions from the tests of primary
hypotheses.
26
6. Disclosure strategy and stock price consequences
We next examine the stock price consequences of disclosure choices to determine
whether pre-IPO shareholders of bad-news firms benefit from delaying disclosure until earnings
announcements. We expect two types of benefits. First, by delaying disclosure, firms with bad
news postpone negative stock returns until the subsequent earnings announcements, allowing
pre-IPO shareholders to secure a higher sale price. Second, delayed disclosure is likely to help
bad-news firms mitigate the negative price impact of selling following the lockup expiration.
The use of non-disclosure to postpone negative returns until the earnings announcement,
when the pre-IPO shareholders have already exited or reduced their stock ownership, has two
implications. Compared with bad-news firms that disclosed the news early, bad-news firms that
delay disclosure should experience (i) less negative returns during the lockup expiration quarter
leading up to the earnings announcement and (ii) more negative returns as the underlying news
becomes public at the time of the earnings announcement. We estimate the following regression
to test these predictions for the subset of bad-news firms:
Abnormal Returns = �0 +�1 No Forecast + �2 News Magnitude + Year and Industry Fixed Effects + �
(3)
We measure Abnormal Returns over (i) the lockup quarter, starting after the news
estimation window (11 days after the previous quarter earnings announcement) and ending two
days before the current quarter earnings announcement (Quarter Excluding Earnings
Announcement), and (ii) the three-day window around the earnings announcement after the
lockup expiration (Earnings Announcement Window) (see Figure 1). The variable of interest is
No Forecast, an indicator variable that equals one if the firm does not issue a forecast during the
lockup expiration quarter and zero otherwise. This variable captures the incremental effect on
27
stock returns for firms that delayed disclosure relative to firms that issue a forecast during the
quarter. We include News Magnitude because it is likely to affect returns during the quarter.18
Table 6, Model 1, reports the results over the Quarter Excluding Earnings
Announcement. As expected, the coefficient on No Forecast is positive and significant at the
10% level, suggesting bad-news firms that stay silent during the quarter experience higher
returns relative to bad-news firms that forecast earnings. This is largely driven by the strong
negative reaction to forecasts released by bad-news firms; average abnormal returns on the three
days centered on the forecast announcement date are significantly negative (-21.1% with two-
sided t-statistic of -4.36).19
Model 2 reports the results over the Earnings Announcement Window. In this window,
we expect firms with bad news that stayed silent during the quarter to experience a more
negative reaction to the reported earnings news than do firms that already released their news
through a forecast. Consistent with our expectations, the coefficient on No Forecast is negative
and significant at the 10% level. The magnitude of the coefficient indicates that nonforecasting
firms experience on average 7.1% lower earnings announcement returns than do forecasting
firms. Overall, we find support for the notion that, by delaying disclosure until earnings
announcements, bad-news firms shift related negative returns to the earnings announcements and
enable pre-IPO shareholders to secure a higher sale price after lockup expiration.
18 We conduct two untabulated tests to address the concern that characteristics of firms that choose to issue forecasts lead to differences in returns (Kasznik and Lev 1995, Tucker 2007). First, we confirm that the magnitude of news between forecasting and nonforecasting bad-news firms is not significantly different from each other. Second, we estimate an alternative model with all the control variables from Table 3. The results of this additional analysis are qualitatively similar to the results in Table 6. 19 The magnitude of the response to bad news is larger than what has been documented previously. For example, Hutton et al. (2003) report an average three-day return of -9.9% in response to bad-news forecast announcements. However, given our sample of young IPO firms with high growth opportunities, we expect a greater price reaction to news, consistent with the findings in Collins and Kothari (1989) and Lang (1991).
28
Next, we investigate the second potential benefit of delayed disclosure to pre-IPO
shareholders of bad-news firms—reduced price impact of selling following lockup expiration. To
test for the price impact of selling, we estimate the following model:
Abnormal Returns (Trading Window) = �0 +�1 No Forecast + �2 News Magnitude + �3 Abnormal Volume + �4 Abnormal Volume x No Forecast + Year and Industry Fixed Effects + �
(4)
Abnormal Returns (Trading Window) are the market-adjusted buy-and-hold returns over
the period starting on the lockup expiration date and ending two days before the earnings
announcement. Abnormal Volume is the abnormal trading volume over the same period. The
coefficient on Abnormal Volume, �3, captures the price impact of selling for the group of
forecasters while the interaction term with No Forecast allows us to examine the incremental
price impact for the group of firms that did not forecast. Therefore, �3+�4 captures the overall
price impact for the firms that do not forecast. In the sample of firms with bad news, we expect
�3 to be significant and negative and �3+�4 to be statistically indistinguishable from zero or at
least have a lower magnitude than �3.
The results in Table 6, Model 3 indicate significant negative price impact of selling for
bad-news firms that release their news early via a forecast experience—the coefficient on
Abnormal Volume, �3, is -0.259 and significant at the 5% level. This price impact translates to
more than 4% negative returns at the average abnormal trading volume. This price impact,
however, is mitigated for firms that delayed the disclosure until earnings announcement; the
coefficient on Abnormal Volume x No Forecast, �4, is 0.188. The sum of �3 and �4 is not
statistically different from zero (untabulated �2 test), suggesting that nondisclosing bad-news
firms do not experience any adverse price impact of selling.
29
Taken together, these results suggest that delaying disclosure of bad news until an
earnings announcement has two effects on returns. First, firms postpone the price drop associated
with the release of bad news. Second, the delay mitigates the adverse price impact of selling after
the lockup expiration date. Comparing the earnings announcement returns and the price impact
of selling for the forecasting and nonforecasting firms, we estimate that by delaying disclosure,
firms help pre-IPO shareholders enjoy a sale price that is approximately 11% higher, on average.
7. Conclusion
We examine whether large and influential pre-IPO shareholders with high selling
incentives impact firms’ voluntary disclosures, leading firms to manage investor perceptions of
firm value and mitigate uncertainty-related stock price movements after lockup expirations. We
find that, for firms with bad quarterly news, the propensity to issue an earnings forecast is
significantly lower in the lockup expiration quarter than in later quarters, a strategy that lets pre-
IPO shareholders sell shares or exit the firm at favorable prices. The likelihood of delaying bad
news in the lockup expiration quarter is higher when the aggregate selling incentives and selling
incentives of VCs are greater, especially when litigation risk is low and firm-specific uncertainty
is high. In contrast, the selling incentives of managers and other pre-IPO shareholders do not
affect disclosure choices. Finally, supplemental tests of realized sales reveal that bad-news firms
are more likely to delay disclosure if VCs sell significant quantities of shares but only when
managers do not also sell. Thus, consistent with prior literature, managers seem wary of
litigation risk and do not personally profit from strategic nondisclosure, but rather engage in
strategic non-disclosure to benefit influential pre-IPO shareholders such as VCs.
Our analysis of abnormal returns in the lockup expiration quarter suggests that, by
delaying disclosure, bad-news firms postpone the negative returns associated with releasing the
30
news until the earnings announcement and avoid the adverse price impact of selling after lockup
expiration. This enables pre-IPO shareholders to sell their shares at higher prices.
Overall, our findings are consistent with the selling incentives of large influential
shareholders shaping disclosure choices. Our results indicate that while managers do not engage
in strategic disclosures before their own trades, they do delay disclosures of bad news to benefit
other large shareholders. This implies disclosures are not always made in a timely manner,
allowing large, influential shareholders to profit at the expense of other investors. Our evidence
from lockup expirations provides insights into other settings in which large shareholders such as
hedge funds and private equity investors have incentives and ability to influence the flow of
information to dispersed shareholders.
31
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34
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35
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36
Appendix A – Variable Definitions Variable Name Variable Definition Abnormal Returns Market adjusted buy and hold returns over the [-1,+1] window where day (Earnings Announcement) 0 is the quarterly earnings announcement. Source: CRSP
Abnormal Returns Market adjusted buy and hold returns from 11 days after the previous (Quarter Excluding earnings announcement through day -2 relative to the quarterly earnings Earnings Announcement) announcement date. Source: CRSP
Abnormal Returns Market adjusted buy and hold returns from the lockup expiration (Trading Window) day through day -2 relative to the quarterly earnings announcement date.
Source: CRSP
Abnormal Volume The average daily abnormal trading volume multiplied by the number of (Trading Window) days in the trading window (lockup expiration day through day -2
relative to the quarterly earnings announcement date). The average daily abnormal trading volume is the difference between the average volumes over the trading window and days -50 to -6 relative to the lockup expiration, scaled by shares outstanding. Source: CRSP
After Regulation FD An indicator variable that is equal to one if the announcement quarter ends after the enactment of Regulation FD (October 23, 2000) and zero otherwise.
Analyst Following Natural logarithm of one plus the number of analysts that issue at least one (one-quarter- or one-year-ahead) earnings forecast for the firm during the announcement quarter. Source: I/B/E/S.
Bad News An indicator variable that is equal to one when the signed News Magnitude (defined below) is less than zero. Source: I/B/E/S, First Call.
Forecast An indicator variable that is equal to one if the firm issued at least one quantitative forecast pertaining to this quarter’s EPS in a given quarter (excluding those issued in the first 10-days), and zero otherwise. Source: First Call.
Good News An indicator variable that is equal to one when the signed News Magnitude (defined below) is greater than or equal to zero. Source: I/B/E/S, First Call.
High Tech Firm An indicator variable that is equal to one for firms in the following SIC industries: 2833, 2834, 2835, 2836, 3570, 3571, 3572, 3576, 3577, 3661, 3674, 4812, 4813, 5045, 5961, 7370, 7371, 7372, 7373. Source: Compustat.
Litigation Probability The cumulative density function of the fitted value from the litigation probability model in Rogers and Stocken (2005) computed for a given quarter. Source: CRSP, Compustat, IBES, TAQ.
Manager Ownership Locked % Percentage of shares outstanding held by officers at the time of the IPO. Source: SEC Edgar database.
Manager Sell An indicator variable that is equal to one if the number of shares sold exceeds the number of shares purchased by company officers during the lockup expiration quarter. Source: Thomson Financial.
37
Market-to-Book Ratio Market capitalization scaled by the book value of equity for a given quarter. Source: Compustat.
News Magnitude Absolute value of the difference between actual quarterly earnings and analysts’ expectations of earnings (proxied by the average earnings forecasts issued over the first 10 days of a given quarter) scaled by beginning of quarter stock price. Source: I/B/E/S, First Call and CRSP.
No Forecast An indicator variable that is equal to one if the firm does not issue at least one quantitative forecast pertaining to the current quarter’s EPS during the lockup expiration quarter. Source: First Call.
% of Institutional Ownership Percentage of shares outstanding held by institutional shareholders measured at the latest TFN report date that falls in a given quarter. Source: Thomson Financial.
% of Shares Locked One minus the percentage of shares outstanding sold in the IPO. Source: SDC, SEC Edgar database.
Predicted Abnormal Volume Predicted value from the Abnormal Volume Model in Appendix B.
Residual Ownership Locked % Percentage of shares outstanding held by shareholders other than officers and VCs at the time of the IPO. Source: SEC Edgar database.
Return on Assets Income before extraordinary items for a given quarter scaled by total assets as of the end of the quarter. Source: Compustat.
Run-up Market adjusted buy and hold returns over the window starting from the issue date of the IPO and ending one day before the start of the quarter during which the lockup expires. Source: CRSP.
Size (in millions) The market value of equity at the beginning of a given quarter. Source: Compustat.
Standard Deviation of Returns The standard deviation of daily stock returns in the preceding quarter. Source: CRSP
Venture Capital Backed An indicator variable that is equal to one if the firm is venture capital backed and zero otherwise. Source: SDC, SEC Edgar database.
Venture Capital High Sell An indicator variable that is equal to one if the firm is venture capital backed and experienced an above average decrease in VC ownership following lockup expiration. Source: SDC, SEC Edgar database.
VC Ownership Locked % Percentage of shares outstanding held by VCs at the time of the IPO. Source: SEC Edgar database.
Top-tier Underwriter An indicator variable that is equal to one if the underwriter for the IPO has a modified Carter Manaster Rank of 9.1 (Carter and Manaster 1990, Loughran and Ritter 2004). We thank Jay Ritter for making the data available at http://bear.cba.ufl.edu/ritter/ipolink.htm.
Uncertainty The standard deviation of daily stock returns in the quarter preceding the lockup expiration quarter. Source: CRSP.
Z-Score < 1.81 An indicator variable that is equal to one if the firm has an Altman Z-score of less than 1.81 in a given quarter and zero otherwise. Source: CRSP and Compustat.
38
Appendix B – Abnormal Trading Volume Prediction Model The following table presents the results from an OLS regression in which Abnormal Volume is the dependent variable. The sample consists of 776 IPO-firm-lockup expiration quarters over the 1995-2007 period. ***, **, and * denote p-values less than 0.01, 0.05 and 0.1, respectively. All variables are defined in Appendix A.
Dependent Variable = Abnormal Volume
Variable Coefficient SE Intercept -0.221 ** 0.10Run-up 0.039 *** 0.01Venture Capital Backed 0.130 *** 0.03Top-tier Underwriter 0.009 0.03% of Shares Locked 0.003 *** 0.00High Tech Firm 0.019 0.04
Observations 776Adjusted R2 0.063
39
Appendix C – Measurement of VC Sales
VCs, unlike managers and directors, are not treated as insiders and, therefore, are not required to report their trading behavior around the lockup-expiration date (Field and Hanka 2001, Gompers and Lerner 1998). Following the prior literature, we construct a measure of VC selling/distribution based on changes in VC ownership that we hand collect from the IPO prospectus and the post-lockup-expiration proxy statements. We use this as a proxy for trading behavior around the lockup expiration. We identify VCs among the list of beneficial shareholders reported in both the prospectus and the proxy statement. Firms report the percentage of beneficial ownership for (i) each stockholder who is known by the company to beneficially own 5% or more of any class of its capital stock, (ii) each of its present executive officers who are also named in the Summary Compensation Table, and (iii) each of its directors. To collect ownership information for VCs, for each of our 347 VC-backed IPO firms, we: 1) Search for the prospectus (424B) on the SEC Edgar database. 2) Identify the VCs in the “Principal Stockholders” table. Record the sum of their ownership. 3) Search for the first proxy statement filed after lockup expiration on the SEC Edgar database. 4) Note the ownership of the VCs identified in Step 2 above. The above process results in a sample of 260 VC-backed firms for which we are able to compute the change in VC ownership as a percentage of shares outstanding.1 The table below reports the distribution of the percentage point change in VC ownership stake: Mean p1 p25 Median p75 p99 Change in VC Ownership -9.77% -49.90% -14.30% -6.15% -1.20% 3.9% Unfortunately, the data are noisy for a number of reasons: � While firms tend to report VC ownership in the prospectus regardless of the magnitude of the
ownership stake, companies are not required to report beneficial owners with less than 5% ownership in their proxy statements unless a VC partner is sitting on the board of directors. This non-disclosure of smaller ownership stakes in the post-IPO proxies leads us to overstate changes in ownership.
� Because proxy statements are filed annually, we cannot identify the precise timing of the change in ownership and we assume that it occurs when the lockup expires.
� The prospectus estimates the ownership stake of the pre-IPO shareholders as of the completion of the IPO using projected IPO share sales. If the actual number of shares sold in the IPO differs from the proposed amount in the prospectus, the ownership stake reported in the post-IPO proxy will be different even in the absence of any selling or distribution.
The above challenges in data collection lead to two problems. First, identifying VC selling or distribution is not reliable because (a) misidentification of the size of the IPO may be wrongly interpreted as ownership changes and (b) some changes in ownership may be driven by the lack of data on VC ownership below 5%. To illustrate (b), a VC with 6% of ownership at the time of the IPO and 4.5% ownership at the time the first proxy after the lockup expiration is filed will be incorrectly classified as experiencing a 6 percentage point decrease in ownership. To address this issue, we require the change in ownership to be above the mean to be considered significant. Second, the magnitude of the change in ownership may not be entirely accurate because of the lack of data on VC ownership below 5%. Therefore, rather than using a continuous variable measuring change in ownership, we rely on an indicator variable. We define Venture Capital High Sell as equal to one if the percentage change in VC ownership is above the mean, i.e., 9.77%, and zero otherwise. 1 We are unable to obtain the prospectuses for some of the firms that had their IPOs in the early part of the sample period (46 and 21 IPOs in 1995 and 1996, respectively), because the SEC Edgar database was initiated in 1996.
40
Tab
le 1
– D
escr
iptiv
e St
atis
tics
Tabl
e 1
repo
rts d
escr
iptiv
e st
atis
tics
for
our
final
sam
ple
of 3
,126
firm
-qua
rter
obse
rvat
ions
. **
*, *
*, a
nd *
den
ote
p-va
lues
les
s th
an 0
.01,
0.0
5 an
d 0.
1,
resp
ectiv
ely.
All
varia
bles
are
def
ined
in A
ppen
dix
A.
Al
l Obs
erva
tions
Fo
reca
st =
0
Fore
cast
= 1
Fo
reca
st =
1 v
s. Fo
reca
st =
0
N =
3,1
26
N =
2,8
32
N =
294
Var
iabl
e M
ean
Stan
dard
D
evia
tion
Mea
n M
ean
Diff
eren
ce in
M
eans
t-
stat
istic
Ba
d N
ews
0.34
0 0.
474
0.31
2 0.
612
0.30
0 10
.53
***
Goo
d N
ews
0.66
0 0.
474
0.68
8 0.
388
-0.3
00
-10.
53
***
New
s Mag
nitu
de fo
r firm
-qua
rters
with
Goo
d N
ews
0.00
2 0.
006
0.00
2 0.
001
-0.0
01
-3.1
9 **
* N
ews M
agni
tude
for f
irm-q
uarte
rs w
ith B
ad N
ews
0.00
4 0.
012
0.00
3 0.
008
0.00
4 6.
15
***
Anal
yst F
ollo
wing
4.
739
3.36
6 4.
624
5.84
4 1.
220
5.94
**
* %
of I
nstit
utio
nal O
wner
ship
0.
360
0.24
3 0.
359
0.36
9 0.
011
0.71
Si
ze (i
n m
illio
ns)
1,02
8 3,
201
1,00
2 1,
276
274
1.40
M
arke
t-to-
Book
Rat
io
4.41
5 18
.670
4.
365
4.90
5 0.
541
0.47
Re
turn
on
Asse
ts
-0.0
25
0.20
5 -0
.026
-0
.013
0.
013
1.00
Z-
Scor
e <
1.8
1 0.
397
0.48
9 0.
393
0.43
5 0.
042
1.41
Li
tigat
ion
Prob
abili
ty
0.00
5 0.
013
0.00
5 0.
011
0.00
6 7.
36
***
Stan
dard
Dev
iatio
n of
Ret
urns
0.
046
0.02
5 0.
046
0.04
7 0.
001
0.97
Af
ter R
egul
atio
n FD
0.
379
0.48
5 0.
376
0.40
5 0.
028
0.95
41
Tab
le 2
– D
istr
ibut
ion
of F
orec
asts
by
Peri
od R
elat
ive
to L
ocku
p E
xpir
atio
n an
d by
Sig
n of
Qua
rter
ly N
ews
Tabl
e 2
repo
rts th
e fr
actio
n of
EPS
man
agem
ent f
orec
asts
by
perio
d re
lativ
e to
lock
up e
xpira
tion
and
by th
e na
ture
of t
he q
uarte
rly n
ews (
Goo
d N
ews v
ersu
s Bad
N
ews)
. Pre
-Loc
kup
Expi
ratio
n Q
uart
ers
are
anno
unce
men
t qu
arte
rs i
mm
edia
tely
pre
cedi
ng t
he q
uarte
r du
ring
whi
ch t
he l
ocku
p ex
pire
s. Lo
ckup
Exp
iratio
n Q
uart
ers a
re th
e an
noun
cem
ent q
uarte
rs d
urin
g w
hich
the
lock
up e
xpire
s. Po
st-L
ocku
p Ex
pira
tion
Qua
rters
are
the
four
ann
ounc
emen
t qua
rters
subs
eque
nt to
the
anno
unce
men
t qua
rter d
urin
g w
hich
the
lock
up e
xpire
s **
*, *
*, a
nd *
den
ote
p-va
lues
less
than
0.0
1, 0
.05
and
0.1,
resp
ectiv
ely.
Goo
d N
ews
and
Bad
New
s ar
e de
fined
in A
ppen
dix
A.
Ba
d N
ews
Goo
d N
ews
Peri
odN
umbe
r of
Fi
rm-Q
uart
ers
Mea
n of
F
orec
ast
Num
ber
of
Firm
-Qua
rter
sM
ean
ofF
orec
ast
(1
) Pre
-Loc
kup
Expi
ratio
n Q
uart
ers
101
0.16
828
00.
046
(2) L
ocku
p Ex
pira
tion
Qua
rter
s 23
90.
117
537
0.04
5(3
) Pos
t-Loc
kup
Expi
ratio
n Q
uart
ers
723
0.18
71,
246
0.06
2
T-t
est f
or d
iffer
ence
s(2
) vs (
3)-2
.49**
(2) v
s (3)
-1.4
3
42
Tab
le 3
– E
x A
nte
Selli
ng In
cent
ives
and
For
ecas
t Pro
pens
ity in
the
Loc
kup
Exp
irat
ion
Qua
rter
Ta
ble
3 re
ports
res
ults
fro
m e
stim
atin
g Eq
uatio
ns (
1a)
and
(1b)
on
subs
ampl
es o
f fir
m-q
uarte
rs w
ith G
ood
New
s an
d Ba
d N
ews.
The
depe
nden
t va
riabl
e is
Fo
reca
st, w
hich
take
s th
e va
lue
of o
ne if
the
firm
issu
ed a
t lea
st o
ne q
uant
itativ
e EP
S fo
reca
st in
the
fore
cast
win
dow
of t
he lo
ckup
qua
rter,
and
zero
oth
erw
ise.
In
Mod
els
1a a
nd 1
b, w
e lo
se o
bser
vatio
ns b
ecau
se s
ome
dich
otom
ous
inde
pend
ent v
aria
bles
pre
dict
for
ecas
ting
beha
vior
per
fect
ly. I
n M
odel
s 2a
and
2b,
we
furth
er lo
se o
bser
vatio
ns w
ith n
o av
aila
bilit
y of
ow
ners
hip
data
on
EDG
AR
. **
*, *
*, a
nd *
den
ote
p-va
lues
less
than
0.0
1, 0
.05
and
0.1,
resp
ectiv
ely.
Yea
r fix
ed
effe
cts a
re n
ot re
porte
d. A
ll ex
plan
ator
y va
riabl
es a
re d
efin
ed in
App
endi
x A
.
Dep
ende
nt V
aria
ble
= F
orec
ast
D
epen
dent
Var
iabl
e =
For
ecas
t
Bad
New
s G
ood
New
s
Bad
New
s G
ood
New
s
Mod
el 1
aM
odel
1b
M
odel
2a
Mod
el 2
bV
aria
ble
Coe
ffic
ient
SEC
oeff
icie
ntSE
Coe
ffic
ient
SEC
oeff
icie
ntSE
Inte
rcep
t -6
.788
**2.
69-6
.137
***
1.92
-9
.969
***
3.05
-4.6
03**
2.29
Pred
icte
d Ab
norm
al V
olum
e -3
.627
**1.
60-0
.364
1.10
VC
Ow
ners
hip
Lock
ed %
-0
.032
**0.
020.
005
0.01
Offi
cers
Ow
ners
hip
Lock
ed %
-0
.020
0.02
0.00
90.
01Re
sidu
al O
wne
rshi
p Lo
cked
%
-0.0
140.
010.
011
0.01
New
s Mag
nitu
de
17.1
08**
6.75
-24.
186
18.9
2 16
.516
**7.
92-2
6.72
720
.56
Anal
yst F
ollo
win
g 0.
400
0.36
0.04
20.
27
0.42
20.
41-0
.032
0.33
% o
f Ins
titut
iona
l Ow
ners
hip
-0.2
810.
62-0
.114
0.44
-0
.564
0.67
-0.0
040.
44Si
ze (i
n m
illio
ns)
0.25
6*
0.15
0.03
70.
11
0.18
30.
16-0
.052
0.14
Mar
ket-t
o-Bo
ok R
atio
0.
004
0.03
0.00
10.
00
0.00
60.
03-0
.001
0.01
Retu
rn o
n As
sets
5.
945
***
2.02
0.17
30.
69
7.59
9**
3.04
0.47
71.
14Z-
Scor
e <
1.8
1 -0
.224
0.29
0.31
00.
19
-0.3
700.
320.
356
*0.
21Li
tigat
ion
Prob
abili
ty
22.9
28**
*6.
9718
.331
*10
.42
23.7
24**
*7.
7318
.810
*10
.92
Stan
dard
Dev
iatio
n of
Ret
urns
15
.926
**7.
66-4
.571
5.97
14
.113
*8.
21-3
.987
6.30
Afte
r Reg
ulat
ion
FD
5.31
1**
*0.
770.
882
0.66
5.
143
***
0.85
0.85
60.
67
N
235
524
173
398
Pseu
do R
2 0.
262
0.09
50.
303
0.08
7
43
Tab
le 4
– R
ole
of L
itiga
tion
Ris
k an
d Fi
rm-s
peci
fic U
ncer
tain
ty
Tabl
e 4
repo
rts re
sults
from
Eq.
(1a)
and
(1b)
mod
ified
to s
plit
the
prox
ies
for s
ellin
g in
cent
ives
, Pre
dict
ed A
bnor
mal
Vol
ume
and
VC O
wne
rshi
p Lo
cked
% in
to
two
varia
bles
cap
turin
g se
lling
ince
ntiv
es fo
r hig
h- a
nd lo
w-
Litig
atio
n Ri
sk a
nd U
ncer
tain
ty e
stim
ated
for
Bad
New
s fir
m q
uarte
rs. T
he d
epen
dent
var
iabl
e is
Fo
reca
st, w
hich
take
s th
e va
lue
of o
ne if
the
firm
issu
ed a
t lea
st o
ne q
uant
itativ
e EP
S fo
reca
st in
the
fore
cast
win
dow
of t
he lo
ckup
qua
rter,
and
zero
oth
erw
ise.
In
Mod
els
1a a
nd 1
b, w
e lo
se o
bser
vatio
ns b
ecau
se s
ome
dich
otom
ous
inde
pend
ent v
aria
bles
pre
dict
for
ecas
ting
beha
vior
per
fect
ly. I
n M
odel
s 2a
and
2b,
we
furth
er lo
se o
bser
vatio
ns w
ith n
o av
aila
bilit
y of
ow
ners
hip
data
on
EDG
AR
. **
*, *
*, a
nd *
den
ote
p-va
lues
less
than
0.0
1, 0
.05
and
0.1,
resp
ectiv
ely.
Yea
r fix
ed
effe
cts a
re n
ot re
porte
d. A
ll ex
plan
ator
y va
riabl
es a
re d
efin
ed in
App
endi
x A
.
Dep
ende
nt V
aria
ble
= F
orec
ast
D
epen
dent
Var
iabl
e =
For
ecas
tM
odel
1a
Mod
el 1
bM
odel
2a
Mod
el 2
bG
roup
s: H
igh
or L
ow
Litig
atio
n Ri
sk
Gro
ups:
Hig
h or
Low
U
ncer
tain
ty
Gro
ups:
Hig
h or
Low
Li
tigat
ion
Risk
G
roup
s: H
igh
or L
ow
Unc
erta
inty
V
aria
ble
Coe
ffic
ient
SEC
oeff
icie
ntSE
Coe
ffic
ient
SEC
oeff
icie
ntSE
Inte
rcep
t -6
.269
**2.
89-7
.347
***
2.79
-1
0.29
3**
*3.
26-1
0.72
2**
*3.
44Pr
edic
ted
Abno
rmal
Vol
ume
x H
igh
-1.0
861.
79-4
.904
***
1.73
Pr
edic
ted
Abno
rmal
Vol
ume
x Lo
w
-5.6
63**
*1.
98-2
.816
1.86
VC
Ow
ners
hip
Lock
ed %
x H
igh
-0.0
180.
02-0
.058
***
0.02
VC O
wne
rshi
p Lo
cked
% x
Low
-0
.044
**0.
02-0
.026
*0.
02O
ffice
rs O
wne
rshi
p Lo
cked
%
-0.0
210.
02-0
.021
0.02
Resi
dual
Ow
ners
hip
Lock
ed %
-0
.015
0.01
-0.0
150.
01N
ews M
agni
tude
14
.754
*7.
6416
.953
**6.
64
15.1
37*
8.23
17.0
34**
7.69
Anal
yst F
ollo
win
g 0.
471
0.37
0.38
90.
36
0.45
90.
410.
434
0.41
% o
f Ins
titut
iona
l Ow
ners
hip
-0.0
240.
68-0
.258
0.63
-0
.518
0.69
-0.6
180.
69Si
ze (i
n m
illio
ns)
0.23
60.
150.
271
*0.
15
0.17
90.
160.
222
0.17
Mar
ket-t
o-Bo
ok R
atio
0.
003
0.04
-0.0
010.
03
0.00
60.
030.
004
0.04
Retu
rn o
n As
sets
5.
737
**2.
335.
842
***
1.96
6.
692
**2.
837.
254
**2.
90Z-
Scor
e <
1.8
1 -0
.270
0.29
-0.1
630.
30
-0.3
950.
32-0
.328
0.33
Litig
atio
n Pr
obab
ility
12
.774
*7.
0825
.663
***
7.24
18
.450
**8.
2227
.721
***
8.03
Stan
dard
Dev
iatio
n of
Ret
urns
10
.298
8.02
22.3
96**
9.00
15
.044
*8.
0820
.371
**9.
83Af
ter R
egul
atio
n FD
4.
708
***
0.77
5.47
0**
*0.
85
5.52
5**
*0.
985.
013
***
0.82
N
235
235
173
173
Pseu
do R
2 0.
306
0.26
90.
314
0.30
6
��
��
44
Table 5 –Management Forecast Propensity and Realized Selling in the Lockup Expiration Quarter Table 5 reports results from estimating Equation (2) on subsamples of firm-quarters with Good News and Bad News. The sample size differs from Table 3 because of data requirements to capture selling by VCs and managers. The sample includes VC-backed firms only when their ownership data are available. The dependent variable is Forecast, which takes the value of one if the firm issued at least one quantitative EPS forecast in the forecast window of the lockup expiration quarter, and zero otherwise. Residual Abnormal Volume is measured as the aggregate abnormal volume over the trading window less the change in ownership by VCs and sales by managers over the same window. ***, **, and * denote p-values less than 0.01, 0.05 and 0.1, respectively. Year fixed effects are suppressed. All explanatory variables are defined in Appendix A.
Dependent Variable = Forecast Model 1a Model 1bBad News Good News
Variable Coefficient SE Coefficient SE
Intercept -4.038 2.77 -5.347 *** 1.96Venture Capital High Sell -4.946 *** 0.82 -0.180 0.46Manager Sell -0.174 0.47 0.304 0.26Manager Sell x Venture Capital High Sell 5.715 *** 1.40 0.099 0.62Residual Abnormal Volume 0.004 0.01 0.005 0.01News Magnitude 12.970 8.22 -18.344 15.84Analyst Following 0.620 * 0.36 -0.066 0.27% of Institutional Ownership -0.405 0.61 -0.225 0.44Size (in millions) 0.106 0.14 0.011 0.10Market-to-Book Ratio -0.007 0.04 0.000 0.00Return on Assets 8.432 *** 2.81 0.399 1.13Z-Score < 1.81 -0.084 0.32 0.437 ** 0.20Litigation Probability 20.742 ** 9.25 16.768 10.96Standard Deviation of Returns 10.564 7.46 -6.381 6.39After Regulation FD 5.156 *** 0.73 1.018 0.64
Year Fixed Effects Yes Yes
N 203 468 Pseudo R2 0.299 0.102
45
Tab
le 6
– A
bnor
mal
Ret
urns
in th
e L
ocku
p E
xpir
atio
n Q
uart
ers w
ith B
ad N
ews
Tabl
e 6
pres
ents
the
resu
lts fr
om th
e es
timat
ion
of E
quat
ion
(3) (
Mod
els
1 an
d 2)
and
Equ
atio
n (4
) (M
odel
3) f
or fi
rms
with
bad
new
s. Th
e de
pend
ent v
aria
ble
in
Mod
el 1
, Abn
orm
al R
etur
ns (
Qua
rter
Exc
ludi
ng E
arni
ngs
Anno
unce
men
t), a
re m
arke
t-adj
uste
d bu
y an
d ho
ld r
etur
ns f
rom
11
days
afte
r th
e pr
evio
us e
arni
ngs
anno
unce
men
t th
roug
h 2
days
prio
r to
ear
ning
s an
noun
cem
ent;
the
depe
nden
t va
riabl
e in
Mod
el 2
, Abn
orm
al R
etur
ns (
Earn
ings
Ann
ounc
emen
t), a
re m
arke
t-ad
just
ed b
uy a
nd h
old
retu
rns
on d
ays
-1 to
+1
rela
tive
to e
arni
ngs
anno
unce
men
t; an
d th
e de
pend
ent v
aria
ble
in M
odel
3, A
bnor
mal
Ret
urns
(Tra
ding
Win
dow)
, ar
e m
arke
t-adj
uste
d bu
y an
d ho
ld r
etur
ns f
rom
lock
up e
xpira
tion
thro
ugh
2 da
ys p
rior
to e
arni
ngs
anno
unce
men
t. W
e lo
se tw
o ob
serv
atio
ns r
elat
ive
to T
able
2
beca
use
of m
issi
ng r
etur
ns d
ata.
***
, **,
and
* d
enot
e p-
valu
es le
ss th
an 0
.01,
0.0
5 an
d 0.
1, r
espe
ctiv
ely.
Yea
r an
d in
dust
ry f
ixed
eff
ects
are
sup
pres
sed.
All
expl
anat
ory
varia
bles
are
def
ined
in A
ppen
dix
A.
��M
odel
1M
odel
2M
odel
3D
epen
dent
Var
iabl
e =
Abn
orm
al R
etur
ns
�� Q
uart
er E
xclu
ding
Ea
rnin
gs
Anno
unce
men
t
Earn
ings
An
noun
cem
ent W
indo
w
Trad
ing
Win
dow
Var
iabl
eC
oeff
.
SEC
oeff
.
SEC
oeff
.
SEIn
terc
ept
-0.7
02
***
0.19
-0
.117
**
0.05
-0
.031
0.
12
No
Fore
cast
0.
133
* �0.
07
-0.0
71
* �0.
04
0.01
3 0.
06
New
s Mag
nitu
de
-1.0
94
1.39
-0
.356
0.
39
-0.5
32
0.95
Ab
norm
al V
olum
e
-0.2
59
**0.
11
Abno
rmal
Vol
ume
x N
o Fo
reca
st
0.18
8 0.
12
N
237
237
237
R2
0.21
2
0.16
7
0.15
1 ��
��
46
Figure 1: Timeline for Lockup Expiration Quarter
Earnings announcement t
10-day window for estimating analyst earnings consensus (News estimation
window)
Earnings announcement t-1
Window for measuring management forecasts
(Forecast Window)
Actual earnings reported
Lockup Expiration
Trading Window
47
� We�study�how�large�shareholders’�selling�incentives�affect�voluntary�disclosures.��
� Managers�delay�disclosure�of�bad�news�for�the�benefit�of�influential�shareholders.�
� The�effect�is�stronger�when�large�shareholders’�selling�incentives�are�greater.��
� The�effect�is�concentrated�in�firms�with�high�uncertainty�and�low�litigation�risk.�
� Managers�themselves�do�not�benefit�from�the�delay�of�bad�news.�