Post on 22-Dec-2015
Rationale for EGFR Inhibition in Combined Modality Therapy in NSCLC
Francisco Robert,M.D.
UAB Cancer Center
Locally Advanced Stage III NSCLC
• Represents approx 35-40% of cases
• During the past 2 decades,the management of these pts has undergone considerable change
• RT was the Std therapy prior to 1980,current management entails the combination of ChemRT in selected pts with good PS
• RTOG data showed that 60 Gy was superior to other doses(40Gy,split 40Gy,50Gy) for local control and overall survival—no difference at 5 Yr
Locally Advanced Stage III NSCLC
• Progress in the management of stage III disease came about in part because of the recognition that cisplatin-based CT imparts a modest but real survival benefit even in pts with far advanced disease
• CALGB/RTOG/ECOG have established that 2 cycles of induction CT with CISP/VLB followed by RT(60Gy) leads to an approx 4-months increased in median survival when compared to RT alone
Theoretical Advantages of Combined Modality ChemoRT in NSCLC
• Spatial Cooperation—RT and CT work in different disease compartments:RT-Local disease,CT-distant micro-metastatic disease
• Non-overlapping Txs—CT does exacerbate RT Tx
• Cellular Interactions—Changes in the shape of the RT response curve;Altered cell cycle distribution( cell in a RT sensitive phase)
• Cytoreduction of the mass: tumor hypoxia Tumor cell repopulation during Tx
Approaches to Combining Chemotherapy and Thoracic Radiation
• CT RT: Full doses of each modality can be delivered w/o combined toxicity
• CT+RT: Exploit potential synergy between the modalities
• CT CT/RT: Induction CT may allow ↓RT ports and ↓systemic micrometastatic disease
• CT/RT CT: Delivering maximal anti-tumor efficacy upfront; exploit potential synergy;intense Tx is given early when the pt is able to handle it better
Current Status of ChemoRT in Stage IIINSCLC: Randomized Studies
Current Status of Combined Modality Therapy in Stage III NSCLC:Conclusions
• Using a concurrent CT/RT component of a CMT(platinum-based)regimen is the current Std of care in good PS patients
• Concurrent CT/RT increases toxicity• An obvious need exists for improved systemic Tx,but
there is also a need for better local control5yr survival rate is still poor (15-16%)
• Is there any role of surgery in the combined modality therapy?
• Have we reached a plateau with current therapy?
Rationale for EGFR Inhibition in NSCLC
•Major role of EGFR expression and signal activation in Bronchial Carcinogenesis– Overexpression of EGFR in early bronchial
neoplastic transformation (metaplasia,dysplasia, ca in situ)– NNK-mediated transformation of BEAS-2B
cells increased EGFR expression– EGFR as a chemoprevention target
Rationale for EGFR Inhibition in NSCLC
•EGFR and TGF-α are frequently expressed or
overexpressed in NSCLC (ICH)– EGFR (40-80%) →TGF-α (80-90%)
•In some studies,EGFR expression has been associated with ↓survival,poor prognosis and increased risk of metastasis
•In combination with MVD and MMP-9 expression, elevated EGFR expression was found to provide prognostic information independent of TNM STG
Rationale for EGFR Inhibition in CMT in NSCLC:Pre-Clinical Observations
EGFRBlockage
p27 CDK2/p27 G1
Angiogenesis
Apoptosis
EGFR Inhibition prevents repair and survivalOf tumor cells damaged by CT and RT:
Chemosensitization, Radiosensitization
Preclinical Combination Studies Demonstrating Enhanced Activity of C225+CT
• Enhanced antitumor effects both in vitro and in vivo using xenografts: Cisplatin,Paclitaxel, CPT-11,Gemcitabine,Doxorubicin,and 5-FU
• Enhanced inhibition of growth of tumor cells• Increased cell cycle effects indicative of
apoptosis• Inhibition of cellular proliferation expression of EGFR and receptor activation• Induction of tumor remission and survival
Antitumor Activity of Cisplatin and C225 on A-431 Xenograft
Ciardello F:Clin Ca Res-Oct01
EGFR Blockage and Radiation Interaction
•Inhibit tumor cell proliferation
•Induces cell cycle arrest (Radiosensitive cell cycle phase)
- C225: G1 phase
- RT: G2/M phase
•Promotes RT-induced apoptosis
- bcl-xl and bcl-2 expression
- suppression of the activated(-p) form of akt
•Inhibit RT-induced damage repair
•Inhibit tumor angiogenesis: VEGF, bFGF
•Effects on invasion
Antitumor Activity of C225 in Combination with RT in Squamous Cell Ca Xenografts
Ciardiello F: Clin Ca Res(Oct/01)
Rationale for EGFR Inhibition in CMT in NSCLC:Clinical Observations
•Activity of EGFR Inhibitors in Adv NSCLC
>ZD 1839 (gefitinib) - IDEAL ½ Studies(N=426): Obj Resp 12-18%; CR/PR/SD49% >OSI-774 (erlotinib) - Phase II (N=56)
Obj resp 15.8%; MS=37wks
Rationale for EGFR Inhibition in CMT in NSCLC:Clinical Observations
•Tolerability of C225 with 1st and 2nd-Line Chemotherapy
- Gemcitabine/Carboplatin
- Docetaxel
•Enhanced activity and tolerability in Head-Neck Cancer
C225+RT (UAB Experience)
Rationale for EGFR Inhibition in NSCLC:Issues of Concern
•Interaction of Chemotherapy+EGFR inhibitors
Negatives Studies(INTACT 1 / 2) with ZD1839+CT A role for maintenance therapy(?)•Potential enhancement of RT-related Tx (e.g.Esophageal/Lung/CV)
No Phase I data of RT/EGFR Inh
Phase II Study of C225 in Combination with ChemoRT in Stage IIIa/b NSCLC*
C225-d1400mg/m2
C225:250mg/m2Paclitaxel 45mg/m2/w
Carbo:AUC2/wRT:63GY(7w)
C225:250mg/m2
wk3
Carbo/Paclitaxel Q 3w2 cycles
C225:250mg/m2/w
Objectivesl:Safety/TX,SurvivalRate,Potential correlation of
EGFR/Survival
* Proposed RTOG Phase II Study