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H. Koeppen



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    MINI 30 - New Kinase Targets (ID 157)

    • Event: WCLC 2015
    • Type: Mini Oral
    • Track: Treatment of Advanced Diseases - NSCLC
    • Presentations: 1
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      MINI30.12 - A Phase II Trial of Pictilisib with Chemotherapy in First-Line Non-Squamous NSCLC (ID 1432)

      18:30 - 20:00  |  Author(s): H. Koeppen

      • Abstract
      • Presentation
      • Slides

      Background:
      In non-squamous non-small cell lung cancer (NSCLC), PI3-kinase (PI3K) pathway activation, including downregulation of phosphatase and tensin homolog (PTEN) expression, may promote cell survival and enhance chemotherapy resistance. Additionally, mutations in KRAS have been shown preclinically to confer resistance to PI3K inhibition. The pan-PI3K inhibitor pictilisib potentiates the activity of taxanes, platinum agents, and antivascular endothelial growth factor therapy in preclinical models of NSCLC. This phase II hypothesis-generating study (NCT01493843) evaluated the safety and efficacy of pictilisib in combination with carboplatin, paclitaxel, and bevacizumab in patients not treated for advanced or recurrent non-squamous NSCLC.

      Methods:
      Overall, 158 patients were randomized to receive carboplatin (area under the curve [AUC] = 6 mg/ml/min), paclitaxel (200 mg/m[2]), and bevacizumab (15 mg/kg) every 3 weeks (q3w) with 340 mg oral pictilisib (n=79) or placebo (n=79) daily in the first 2 weeks of each cycle for a total of 4 cycles. Bevacizumab q3w with daily pictilisib or placebo was continued until disease progression or unacceptable toxicity. Stratification factors included Eastern Cooperative Oncology Group performance status and smoking status. The primary endpoint was progression-free survival (PFS) in the intention-to-treat (ITT) population and in patients with PTEN null/low expression (assessed by immunohistochemistry). Overall survival (OS), objective response rate (ORR), and safety were secondary endpoints. Pre-planned exploratory analyses included efficacy in the KRAS-wildtype subgroup. Tumor assessment was based on RECIST v1.1. Safety analyses were performed on patients who received at least one dose of study drug.

      Results:
      Median PFS in the ITT population was 6.9 months in the pictilisib arm and 5.9 months in the placebo arm (HR 0.82; 90% CI 0.59–1.13), while median OS was 13.6 months (pictilisib arm) versus 16.1 months (placebo arm) (HR 1.12; 90% CI 0.79–1.59). In patients with PTEN null/low expression, median PFS was 5.9 months (pictilisib arm) and 5.7 months (placebo arm) (HR 0.74; 90% CI 0.41–1.32). In the KRAS-wildtype subgroup, median PFS was 9.7 months (pictilisib arm) versus 5.7 months (placebo arm) (HR 0.70; 90% CI 0.45–1.09); median OS was 14.5 months in both arms. ORR in the ITT population was 37% (pictilisib arm) versus 29% (placebo arm). In the pictilisib arm, common grade ≥3 adverse events (AEs) included neutropenia (23%), rash (20%), thrombocytopenia (8%), febrile neutropenia (5%), and hyperglycemia (5%). AEs led to higher rates of discontinuation in the pictilisib arm (26% versus 16% in the placebo arm), particularly during the first 4 cycles. However, the proportion of AE-related deaths was higher in the placebo arm (9 [12%] versus 5 [6%] in the pictilisib arm).

      Conclusion:
      This phase II trial of first-line pictilisib plus chemotherapy and bevacizumab in patients with non-squamous NSCLC showed a modest trend for improved PFS, with additional toxicity and no OS benefit. The safety profile was consistent with other pictilisib trials. PTEN null/low expression was not a predictive biomarker, although its prognostic value cannot be excluded. A trend for improved PFS, but not OS, was observed in the KRAS-wildtype subgroup, especially during the maintenance phase of treatment.

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    ORAL 13 - Immunotherapy Biomarkers (ID 104)

    • Event: WCLC 2015
    • Type: Oral Session
    • Track: Biology, Pathology, and Molecular Testing
    • Presentations: 1
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      ORAL13.03 - Spatiotemporal Effects on Programmed Death Ligand 1 (PD-L1) Expression and Immunophenotype of Non-Small Cell Lung Cancer (NSCLC) (ID 1609)

      16:45 - 18:15  |  Author(s): H. Koeppen

      • Abstract
      • Slides

      Background:
      PD-L1 is one of the immune-checkpoint molecules that regulates Th1 immune responses and mediates cancer immune evasion. PD-L1 can be expressed on tumor cells (TC) or tumor-infiltrating immune cells (IC) and expression in both cell types can negatively regulate T-cell function in the tumor microenvironment. The goal of this study was to evaluate the intra-patient heterogeneity and temporal changes in PD-L1 expression and overall immune phenotype in NSCLC using paired synchronous and metachronous tumor specimens.

      Methods:
      Thirty-nine patients (pts) with NSCLC treated at Memorial Sloan Kettering Cancer Center were evaluated as part of an IRB approved project. Most were former/current smokers (n=30, 77%) and had adenocarcinoma histology (n=36, 92%). 17 pts were KRAS mutant (45%), and 5 were EGFR mutant (13%). Paired synchronous samples were collected from 17 pts with stage IIIA-N2 resected primary lung and metastatic lymph node (met LN) tissue. Paired metachronous samples were collected from 23 pts (including one patient also with synchronous tissue) with at least two metachronous primary/metastatic (n=14) or metastatic/metastatic tissues (n=9). In pts with metachronous samples, 14 (61%) had systemic intercurrent anti-cancer therapy and 9 (39%) had none. PD-L1 expression was assessed by IHC (clone SP142) on TC and IC. CD8 expression was evaluated by IHC using the C8/144 clone. In addition, expression of ~600 immune genes was analyzed by iChip.

      Results:
      Twenty-five out of 39 tissue pairs were evaluable by PD-L1 IHC (14/17 synchronous, 11/23 metachronous). Among pts with synchronous samples, in the primary tumor, PD-L1 was expressed in <1% of TC or IC in 6 pts, in 1-4% of cells in 5 pts, and in ≥5% of cells in 3 pts. Among those with metachronous samples, in the first collected sample, the PD-L1 expression in <1% of TC or IC was detected in 6 pts, in 1-4% of cells in 2 pts, and in ≥5% of cells in 3 pts. PD-L1 expression was similar across all paired tissues. PD-L1 status at the TC or IC 5% cut-off remained unchanged in all evaluable paired specimens and at the TC or IC 1% cut-off remained unchanged in 80% (11/14 synchronous and 9/11 metachronous) pairs. In both synchronous and metachronous samples, CD8 expression was also similar across paired specimens. The median inter-sample difference in CD8+ T-cell infiltration was 0.5% (95% CI: -0.6% - 3.4%) in synchronous pairs; three pts had a difference >5%. In metachronous pairs, the median difference was -0.4% (95% CI: -1.4% - 0.1%); one pt had a >5% change in CD8+ T-cell infiltration.

      Conclusion:
      In this study, there was a high agreement in PD-L1 expression and CD8+ T-cell infiltration in both paired synchronous and metachronous NSCLC specimens. The low intra-patient heterogeneity of PD-L1 and CD8 expression in this study suggests any available tissue (e.g. primary or met) may be reliable to assess these markers in NSCLC. Overall immune characterization by gene expression analysis in paired tumor specimens will be presented.

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