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M.H. Serke



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    ORAL 04 - Adjuvant Therapy for Early Stage Lung Cancer (ID 99)

    • Event: WCLC 2015
    • Type: Oral Session
    • Track: Treatment of Localized Disease - NSCLC
    • Presentations: 1
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      ORAL04.03 - Preliminary Results of the International Tailored Chemotherapy Adjuvant Trial: The ITACA Trial (ID 1262)

      10:45 - 12:15  |  Author(s): M.H. Serke

      • Abstract
      • Slides

      Background:
      In resected early stage (II-IIIA) non-small cell lung cancer (NSCLC) adjuvant chemotherapy improves overall survival but the benefit is limited and pharmacogenomics tailored treatment is a potential way to further improve outcome. A phase III multicenter randomized trial comparing adjuvant pharmacogenomics-driven chemotherapy, based on thymidylate synthase (TS) and excision-repair cross-complementing-1 (ERCC1) gene expression versus standard adjuvant chemotherapy in completely resected Stage II-IIIA NSCLC recently completed patients’ (pts) enrolment (EudraCT #: 2008-001764-36).

      Methods:
      The mRNA ERCC1 and TS expression by qRT-PCR was centrally assessed on paraffin-embedded, post-surgical tumor specimens in all registered pts. Immunohistochemistry (IHC) straining for ERCC1 (using 2 monoclonal antibodies, 8F1 and 4F9) and TS protein expression was also performed. Randomization was stratified by stage and smoking status. Trial was emended on February 2011 to include the 7th staging system. The primary end point of the study is overall survival; secondary end points include recurrence-free survival, therapeutic compliance, toxicity profile and comparative evaluation of ERCC1 and TS mRNA versus protein expression. Study design was already reported [Novello S et al, JTO 2013; 8 (Suppl 2) P3.12-023].

      Results:
      Enrolment was concluded in August 2014 and at that time all gene expression data were available. Recruitment and gene expression results were completed in August 2014. 386 pts were included in the control arm, 375 in the tailored arm and 41 were excluded as screening failures (14) or are not yet fully evaluable (27). Statistical correlations to compare treatments received, toxicity profiles and pts’ survival data in the tailored and control groups are ongoing. Further data analyses will include the correlation between biomarker ERCC1/TS mRNA and protein expression levels, as well as compare ERCC1-IHC scores with the 2 ERCC1 antibodies. The distribution of some baseline characteristics depending on the molecular profile is shown in Table 1. Figure 1



      Conclusion:
      This trial will provide robust evidence if a tailored therapeutic strategy based on selected gene expression profile may contribute to improve efficacy and to ameliorate toxicity of adjuvant chemotherapy in completely resected early stage NSCLC.

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    ORAL 21 - Biology - Moving Beyond the Oncogene to Oncogene-Modifying Genes (ID 118)

    • Event: WCLC 2015
    • Type: Oral Session
    • Track: Biology, Pathology, and Molecular Testing
    • Presentations: 1
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      ORAL21.03 - KEAP1-Mutations and NFE2L2-Mutations in Patients with Non-Small Cell Lung Cancer (NSCLC) (ID 2792)

      10:45 - 12:15  |  Author(s): M.H. Serke

      • Abstract
      • Presentation
      • Slides

      Background:
      Mutations in genes of the KEAP1-NFE2L2 pathway in patients with NSCLC are associated with an increased tumor growth, resistance towards cytostatic drugs and reduced survival rates. KEAP1 suppresses NFE2L2 under physiological conditions. Oxidative stress or electrophiles cause NFE2L2 to stabilize and translocate to the nucleus, resulting in transcription of various cytoprotective genes. Mutations in KEAP1 and NFE2L2 are described for diverse tumor entities and often cause an increased level of NFE2L2 leading to resistance of cancer cells against anti-cancer drugs and irradiation. This study was performed to characterize KEAP1-mutated and NFE2L2-mutated NSCLC clinically and genetically.

      Methods:
      Tumor tissue collected from 446 patients within a regional screening network was analysed for KEAP1 mutations and NFE2L2 mutations using next-generation sequencing (NGS). Clinical, pathological and genetic characteristics of these patients are described and compared with a control group of patients without KEAP1 mutation and without NFE2L2 mutation.

      Results:
      So far, we identified 33 patients with KEAP1 mutations. Among these we found 34 different mutations, of which the majority was not previously described. KEAP1 mutations were not restricted to a special exon. In 30 patients (90.9%), additional driver aberrations in KRAS, EGFR, FGFR1, FGFR3, STK11, ALK, DDR2, HRAS, BRAF, PIK3CA, PTEN, NFE2L2, EP300, TSC1, CREBBP, NRAS, MET and Her2 could be detected, as well as mutations and polymorphisms in TP53. KEAP1 mutations occurred in both genders (male/female ratio 3/1), in squamous-cell carcinoma (36.4%) and adenocarcinoma (60.6%) and were significantly associated with smoking. We also identified 26 patients with NFE2L2 mutations. Among these we found 15 different mutations, of which W24R and E79K were the most common. In 20 patients (76.9%) additional driver aberrations were detected. NFE2L2 mutations occurred in squamous-cell carcinoma (69.2%) and adenocarcinoma (23.1%) and were significantly associated with smoking as well. NFE2L2 mutations also occurred in both genders with 61.5% male and 38.5% female. Two patients had both a KEAP1 mutation and a NFE2L2 mutation.

      Conclusion:
      Our data suggest a role of KEAP1-mutations and NFE2L2-mutations as a cofactor in addition to classical driver mutations underlying the malignant phenotype of lung cancer cells. So far, this is the largest cohort of patients with KEAP1-mutations and NFE2L2-mutations analysed and described. Further survival and treatment analyses will reveal the role of these mutations for the outcome of these patients.

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    P2.02 - Poster Session/ Treatment of Localized Disease – NSCLC (ID 210)

    • Event: WCLC 2015
    • Type: Poster
    • Track: Treatment of Localized Disease - NSCLC
    • Presentations: 1
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      P2.02-034 - Induction Therapy with Intercalated TKI and Chemotherapy in NSCLC with Activating EGFR Mutation in Stages II-IIIB: NeoIntercal (ID 2255)

      09:30 - 17:00  |  Author(s): M.H. Serke

      • Abstract

      Background:
      EGFR TKI treatment is standard of care in patients with metastasized NSCLC carrying an activating EGFR mutation. 1[st] and 2[nd] generation agents lead to response rates of up to 70% in metastatic EGFRM+ NSCLC. Recently, new light has been shed on intercalated regimens of chemotherapy and TKI have shown improved PFS as well as OS in the metastatic setting in an unselected Asian population (Wu et al. 2013 The Lancet Oncology 14 (8): 777-86). Response is a predictor of PFS and OS in limited and locally advanced NSCLC. Chemotherapy induction alone leads to pCR rates of no more than 15%. No data have been generated for induction therapy including EGFR TKI in EGFRM+ NSCLC. Four cases treated in one center have demonstrated the feasibility and tolerability of an intercalated induction therapy concept (Lüers et al. 2013 Abstract WCLC).

      Methods:
      Therefore, NeoIntercal a single arm phase II study has been initiated in 9 centers in Germany. In a first step, patients with stage II to IIIB staged according to local standards will be screened for EGFR mutations by a ring certified pathologist. EGFRM+ patients will receive gefitinib 250 mg / die p.o. on d-12 to -1 (d1 = first day of first cycle of chemotherapy) followed by 3 cycles of taxane and platinum containing chemotherapy with intercalated gefitinib on d4-d20 of each cycle. After 2 cycles, restaging CT is performed and patients are scheduled to undergo surgery during the 4[th] or 5[th] week of the last cycle of CTx-gefitinib. Pathologic response rate is the primary endpoint. If more than 30% of patients achieve pCR (regression grades IIB and III according to Junker) in the mediastinal lymph nodes, it is planned to additionally enroll 28 patients in the 2[nd] part of the study. Secondary endpoints include OS, PFS, relapse rate and pattern, toxicity and feasibility. A liquid biopsy project is included in the study to correlate EGFR mutation status from tumor biopsy results with ctDNA plasma analysis. Furthermore, therapy effects will be monitored by liquid biopsy.

      Results:
      Study preparation and recruitment of clinical trial centers is nearly completed and the enrollment of the first patient is planned for 3Q2015. An interim analysis will be performed approximately 12 months after enrollment initiation with data from 21 patients. Should the interim analysis be positive and an additional 28 patients are included, the study is scheduled to end in approximately 2019 after a follow up period of 24 months.

      Conclusion:
      According to our knowledge, NeoIntercal is the first study in the neoadjuvant setting with curative intent applying an intercalating combination of chemotherapy and targeted therapy. The NeoIntercal study group believes that this study will potentially contribute to the improvement of EGFRM+ NSCLC therapy.