Rhinovirus-Induced Asthma Exacerbations: How that · PDF fileDecreased IFN-ßmRNA...

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Rhinovirus-Induced Asthma Exacerbations:How that Happens and Implications for

Treatment

Larry Borish, M.D.Professor of Medicine and Microbiology

University of Virginia Health SystemCharlottesville, VA

DISCLOSURES

• ContractedResearch*– CumberlandPharmaceuticals

• Consultant;uncompensated– Allakos

• CompensatedDSMB– PluriStem

*allfundsgototheUniversityofVirginia

LEARNINGOBJECTIVES

• ExaminetheroleofbystanderallergicreactionsinthepathogenesisofRV-inducedasthmaexacerbations.

• DescribetheroleofaberrantinnateimmuneresponsesinRV-associatedasthmaexacerbations

• Clarifytherapeuticimplicationsfortreating andpreventing asthmaexacerbations

Acknowledgements

• Heymann LabPeter HeymannJoshua L KennedyHolly CarperDeb Murphy

• Braciale LabTom BracialeMartha Spano

• Borish/Steinke LabJohn W SteinkeJulie NegriMadison RamsdenTheresa Altherr

• Woodfolk LabJudith A WoodfolkLyndsey Muehling

• Turner LabRon TurnerDeborah Thacker

September (and May) Epidemics of Asthma Exacerbations in Children and Adolescents in North America

Johnston et al. J Allergy Clin Immunol 2005 Feb; 115 : 130-8.

Number of hospitalizations of children age 5 to 15 yo by week of the year in Ontario

0 10 20 30 40 50 60

Coronavirus

Enterovirus

Rhinovirus

Influenza A, B

Metapneumovirus

RSV A, B

Parainfluenza 1, 2, 3

Adenovirus

Percent of Patients Who Tested Positive for Each Virus

Wheeze

Control

p<0.001

Children (age ≥3) and Adolescents Hospitalized for Asthma in Charlottesville, VA:

Heymann, P et al JACI 2004;114:239-47

AsthmaControl

and this occurs despite there being no compelling evidence that RV infections only occur in September (and May)• RV infections occur year round• i.e., this cannot just be explained by kids returning

to school

Seasonal incidence of respiratory viral infections in hospitalized patients

Johnston S et al. Am J. Respir Crit Care Med. 1996;154:654-60.

• Evidence of an “allergic” reaction:– eosinophilia, high ECP, high leukotrienes

• High total IgE– allergic sensitization (atopy)

Zambrano, J., et al. J Allergy Clin. Immunol. 2003;111:1008-16

TOTA

L SE

RU

M IG

E [I

U/m

L]

2

8

32

128

512

2048

8192

WHEEZEn=79

CONTROLn=77

ASTHMAn=33

CONTROLn=34

ASTHMAn=20

CONTROLn=21

< 3 YEARS OLD 3 - 9 YEARS OLD 10 - 18 YEARS OLD

128

377

42

401

33

Asthma exacerbations link to a highly allergic phenotype

Asthma exacerbations link to a highly allergic phenotype

• Evidence of an “allergic” reaction:– eosinophilia, high ECP, high leukotrienes

• High total IgE– allergic sensitization (atopy)

Zambrano, J., et al. J Allergy Clin. Immunol. 2003;111:1008-16

– Hypothesis:– Autumn exacerbation requires RV AND:

• sensitivity to ragweed, alternaria, dermatophagoides– Spring exacerbation requires RV AND:

• sensitivity to grass

So, if this were true what would we observe in an environment where allergen exposure is perennial?

• Hypothesis:If the allergen exposure is perennial, and RV infections occur perennially then exacerbations will occur perennially without a seasonal “spike”

CostaRicaERStudyHospitalNacionaldeNiños,SanJosé

(ChildrenAges7to12years)

• February enrollmentwhenchildrenstartschool• October enrollment• Enrollmentincluded:

96childrentreatedforacuteasthmaexacerbations,and126non-asthmaticcontrols65childrenwhorequiredtreatmentforasthmawithintheprevious12months(i.e.,“stableasthma”atthetimeofenrollment)

Soto-Quiros,Metal.J.AllergyClin Immuol 2012;129:1499-1505

0%

20%

40%

60%

80%

100%

Current Wheeze Stable Asthma ControlN= 44 51 35 29 57 69

80%

73%

14% 14%10% 9%

p<0.001

p<0.001

February October February October February October

% C

hild

ren

with

Pos

itive

PCR

for

RV,

HEV

, or R

SV

ChildrenwithPositiveTestsforViralInfection(qPCR)

N=445135295769

*

*p<0.03forthepercentageofRVpositivetestsinFebandOct

RhinovirusRSVEnterovirus

Exacerbating asthmatics

Soto-Quiros,Metal.J.AllergyClin Immuol 2012;129:1499-1505

Wheeze Stable Asthma Control0

100

200

300

400

500

Tota

l IgE

Total IgE levels in Costa Rica

482

332

86

p=0.1

p<0.001

p<0.001

AsthmaExacerbation

(n=95)

StableAsthma(n=64)

Controls(n=123)

Soto-Quiros,Metal.J.AllergyClin Immuol 2012;129:1499-1505

D. pter

Blomia

B. germ

P. amer

Ascaris

Alternari

a

Aspergillu

sDog Cat

Bahia gr

0.1

1

10

100

1000

<0.35x 9 x 9 x 44 x 58 x 53 x 88 x 81 x 69 x 77 x 82

Tite

r of I

gE (I

U/m

l) 25

12

1.8 1.4 1.62.4

0.91.3

1.8 1.4

93 90 53 38 42 4 12 25 16 11% Positive:

*GMvalues(inblue)includeonlychildrenwhosetiterswere≥0.35IU/ml

Costa Rica: Titers of allergen-specific IgE antibody in children and adolescents having an asthma exacerbation:

Soto-Quiros,Metal.J.AllergyClin Immuol 2012;129:1499-1505

IgE to Mite (IU/ml)

Prob

abili

ty o

f Cur

rent

Whe

eze

1 10 100 1000

0.0

0.2

0.4

0.6

0.8

1.0

IgE to Mite (IU/ml)1 10 100 1000

0.0

0.2

0.4

0.6

0.8

1.0

RV Negative RV PositiveA B

Probability of Asthma Exacerbation Based on Titers of IgE ab to D. pteronyssinus and Tests for Rhinovirus (Costa Rica)

Soto-Quiros,Metal.J.AllergyClin Immuol 2012;129:1499-1505

Conclusions, part I

• Most asthma exacerbations in children and adolescents occur in association with RV infection

• This reflects concomitant presence of allergic sensitization to aerollergens expressed at the time of the infection

Two Schools of Thought• The seed= the virus

– Three virus clades• A (ICAM/LDL), B (ICAM/LDL) and C (Cadherin-related family

member 3)– Asthmagenic* Rhinovirus (Strain C?)

Clades/ SpeciesHRV-A(75serotypes)HRV-B(25serotypes)HRV-C(60genotypes)

Order Family GenusPicornavirinae Picornaviridae Enterovirus

Jacobs,SEetal.ClinicalMicrobiologyReviews2013;26:135-62

RV Serotypes and Frequency of Inducing of Inducing Asthma Exacerbations

Lee,W-M,etal.Am.J.Respir Crit.CareMed.2012;186:886-91

*this could reflect either increased inherent virulence or altered immune responseMSI – moderate to severe illness

Viral AnalysisAsthma (n=68)

Acute Rhinitis (n=32)

Control (n=14)

qPCR for RV, % positive 57.1* 56.2* 7.1RV-A, % positive 50 59 0RV-C, % positive 50 35 100RV-B, % positive 0 6Other viruses, % positive 21 6

*p<0.01 compared to control

Soto-Quiros, M et al. J. Allergy Clin Immuol 2012;129:1499-1505

RV-C

• Unique binding receptor is cadherin-related family member 3 (CDHR3)– Previously linked to increased susceptibility to severe

asthma exacerbations in GWAS study,(in contrast to RV-A/-B which bind ICAM-1 or LDLR)

• Identified and grown using sinus epithelial explants– Could sinus infection and “sinobronchial” reflexes

trigger the exacerbation?

CDHR3 expression in RV-C unsusceptible and susceptible cell lines

Bochkov YA et al. Proc Nat Acad Sci (USA) 2015

Computed Tomographic Study of the Common Cold

Gwaltney JMJr.,etal.NEngl JMed1994;330:25-30

Day 4 of illness Day 13

Two Schools of Thought• The seed= the virus

– Three virus clades• A (ICAM/LDL), B (ICAM/LDL) and C (Cadherin-related family

member 3)– Asthmagenic* Rhinovirus (Strain C?)

• The soil= the asthmatic– Innate immune deficiency in asthmatics

• Inability to control virusà increased viral load + exacerbations

*this could reflect either increased inherent virulence or altered immune response

Decreased IFN-ß mRNA expression from bronchial epithelial cells in response to RV infection

Wark PAetal.JExp Med. 2005;201:937-47

•with similar results shown for type III IFNs and IL-15

•and linked to higher viral loads

RVmayreplicatebetterinthelungsofasthmatics

Mosser et al, J Infect Dis. 185:734-743, 2002

Bronchus

• Infection(worsenedinfection)ofthelowerairway– inassociationwithreducedinnateimmuneresponse(typeIIFN,typeIIIIFN,andIL-15)

ButdoesRVevenneedtoinfectthelowerairwaytodriveanasthmaexacerbation?

RV

HumoralMechanismsofRV-inducedupperrespiratoryrhinitisdrivinglowerrespiratoryasthmaexacerbations

another consideration might be that RV-C uniquely infects the sinuses and acute sinusitis drives the asthma exacerbation

• Morerecentstudieshavenotconfirmedsignificantdifferencesininnateimmuneresponsivenessinthelungsofasthmatics

• andpre-treatmentwithIFN-ß wasassociatedwithlotsofSEswithoutrobustevidenceformuchbenefit

DoesRVreplicatebetterinthenoseofasthmatics?

however, this isn’t necessarily comparing viral load on the same day post-infectiontherefore, need to do viral challenge approach

RVqPCRforRVinNasalWashesfromChildrenwithAsthmaExacerbations,AcuteRhinitis,andControlsintheER

Kennedy,JLetal.Am.J.Respir.Crit.CareMed.2014;189:532-9.

Asthma Exacerbation Acute Rhinitis Controln=28 n=32 n=14

Viral loads in Controls and “Low” and “High” IgE Asthmatics:

Kennedy J et al. Am J Respir Crit Care Med 2014; 189:532-9

Despite similar viral loads, symptoms are worse in allergic asthmatics (and last longer):

Study Day

Upp

er R

espi

rato

ry T

ract

Sym

ptom

s

0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20

0

1

2

3

4

5

6

7ControlLow IgEHigh IgE

ControlLow IgEHigh IgE

ControlLow IgEHigh IgE

Innate Immune Response

Adaptive Immune Response

Alternative(complementary)hypothesis:Coulddiminishedinnateimmuneresponsealterthepathological responsetoRV?

• RVinfection– inhealthysubjects– producesnodiscerniblepathologyinnasalbiopsies:– Nopathology– Noidentifiableinfected/necroticcells

AbsenceofCytopathologyinRVRhinitis:AirwayEpithelialCellsEfficientlyEngulfApoptotic

EpithelialCells

Development of a flow cytometry based apoptotic cell phagocytosis assay:

Juncadella, I et al. Nature. 2013;27:367-71

andthisengulfmentisassociatedwithgenerationofanti-inflammatorymediatorsTGF-ß andPgE2*(andrequiresengagementofPSreceptors)

Juncadella, I et al. Nature. 2013;27:367-71

*and IL-10

CoulddiminishedinnateimmuneresponsealterthepathologicalresponsetoRV?

• normal innateimmuneresponse– apoptosis ofRVinfectedcells– enhanced IL-10/PgE2/TGF-ß – noinflammation

• diminished innateimmuneresponse– necrosis ofRVinfectedcells– reduced IL-10/PgE2/TGF-ß –inflammation– and,possibly,withIL-33secretion

Conclusions, part II

• RV-induced asthma exacerbations do not appear to reflect differences in viral load– or, by extension, do not reflect differences in innate

anti-viral immune responses– (but this could be associated with conversion of

apoptosis to necrosis)– (or, alternatively, perhaps this is limited to the lower

airway)

Buthowwouldanyofthisexplaintheenhanced“allergy”requirement?

i.e., it’s the soil

(there may be “asthmagenic” viruses but it is not their inherent virulence -- but the nature of the immune response they generate that is the problem)

and if asthmatics have such an awful innate capacity to respond to viruses, why aren’t they have horrific responses to influenza*, adenovirus, etc., etc., etc.?

Two Schools of Thought• The seed= the virus

– Three virus clades• A (ICAM/LDL), B (ICAM/LDL) and C (Cadherin-related family

member 3)– Asthmagenic Rhinovirus (Strain C?)

• The soil= the asthmatic– Innate immune deficiency in asthmatics

• Inability to control virusà increased viral load + exacerbations– Robust immune response with viral infection

• And this immune response is being directed to:– bystander allergens

Sohowdoallergicimmuneresponsesgetgenerated?

• Ingeneticallypredisposedindividualstheredevelopsakeycentralroleforepithelial-derived:– IL-25– IL-33– TSLP

IL-33

TSLP

DC

Th0 Th2

Epithelial damage

Allergen

Microbes

IL-25

IL-4IL-5IL-9IL-13

Exceptthatepitheliumdoesn’tactuallyneedThelper2lymphocytestogeneratetheTh2cytokinemilieu

IL-33

TSLP

Epithelial damage

Allergen

Microbes

IL-25

ILC2IL-5IL-13

IL-4IL-5IL-9IL-13

Mast Cell

DC

Th0 Th2

Andonceepithelialcellsareepigeneticallydifferentiatedtoproducethesecytokines,they– andtheirdaughtercells– constitutivelyandpermanentlyretainthattendency

IL-33

TSLP

IL-25

ILC2IL-5IL-13

IL-4IL-5IL-9IL-13

Mast Cell

Andthisepigenetic“differentiation”oftheepitheliumincludesprogrammingtosecretecytokines/chemokinesthatdriveeosinophilia(whichalsomakeTh2cytokines)

IL-33

TSLP

IL-25

ILC2IL-5IL-13

IL-4IL-5IL-9IL-13

Mast Cell

GM-CSF, CCL5, CCL11, CCL24, CCL26

Eosinophil

IL-4,IL-13

Methods• Primaryepithelialcellcultures

– InfectedwithRV39(3TCID50/mL)at33°C• Placedin37°Cincubatorandharvestedcellsat2,4,24,and48hours.

– EvaluatemRNAandproteinexpressionofdifferentcytokinesandchemokines

DD

CT

Nor

mal

ized

tob-

actin

p<0.01

2 4 24 48Hours

DD

CT

Nor

mal

ized

tob-

actin

2 4 24 48

Hours

n=6 (Asthmatics)n=9 (Controls)

DD

CT

Nor

mal

ized

tob-

actin

2 4 24 48

Hours

IL-25 TSLP

IL-33

Epigenetically-programmedrapidupregulationofIL-25/IL-33/TSLPmRNAfromRV-InfectedRespiratoryEpithelium

Andinourviralinfectionmodelsthereisa“suggestion”ofasystemicTh2signatureimmuneresponse:SerumtotalIgE(bydayofstudy)

*increased IgE in 9/10 subjects

Local IgE Production in the Nose of Allergic and Non-Allergic Rhinitis Patients

• Quantification of allergen-specific and total IgE in the circulation and in both nasal secretions / interstitial nasal fluid• The concept being that “diffusion” of IgE

would be allergen non-specific • and as such a ratio of specific:total IgE in the

nares compared to the circulation >1 would signify local production

34%*

19%**

0% 0% 0%

5%

10%

15%

20%

25%

30%

35%

40%

LocalDPIgE LocalBTIgE

Allergic Non-Allergic

0

20

40

60Pe

rcen

tage

AllergenDP BT

- no virus- RV/HEV+

Local IgE Production in the Nose of Allergic Rhinitis Patients With and Without

RV Infection

Despite similar viral loads, symptoms are worse in allergic asthmatics:

Study Day

Upp

er R

espi

rato

ry T

ract

Sym

ptom

s

0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20

0

1

2

3

4

5

6

7ControlLow IgEHigh IgE

ControlLow IgEHigh IgE

ControlLow IgEHigh IgE

Innate Immune Response

Adaptive Immune Response

Reflecting an exacerbated and prolonged allergic state?

so, is IgE important to RV-induced asthma exacerbations?

and will targeting IgE-mediated bystander allergic responses protect against RV-induced exacerbations?

Antihistamines / Intranasal CCS – never studiedAllergy Immunotherapy – never studiedOmalizumab?

Omalizumab in Allergen-Exacerbated Asthma:Reduction in Exacerbations

Soler M et al. Eur Respir J. 2001;18:254-61; Busse W et al. J Allergy Clin Immunol. 2001;108:184-90; Milgrom H et al. Pediatrics 2001;108:E36.

Includingexacerbationsduringtherhinovirus-associatedMay– Septemberasthmaepidemics

Seasonal Variation in Frequency of Exacerbations(width of the bands represents the 95% CI)

Busse, WW et al. New Engl J Med 2011; 364:2011

Conclusions, part III• RV-mediated asthma exacerbations in children and adolescents are

dependent upon an enhanced IgE-driven immune response to bystander allergens– this may be attenuated by treating the allergies:

• Intranasal CCS / Anithistamines – unstudied• IT – perhaps• Omalizumab

• Proof of this concept will require a randomized controlled trial of omalizumab in patients undergoing experimental RV challenge:– in progress