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G.M. Frampton



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    ORAL 37 - Novel Targets (ID 146)

    • Event: WCLC 2015
    • Type: Oral Session
    • Track: Biology, Pathology, and Molecular Testing
    • Presentations: 1
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      ORAL37.04 - Comprehensive Genomic Profiling (CGP) of Advanced Cancers Identifies MET Exon 14 Alterations That Are Sensitive to MET Inhibitors (ID 3156)

      17:17 - 17:28  |  Author(s): G.M. Frampton

      • Abstract
      • Presentation
      • Slides

      Background:
      Amplifications and activating mutations in the c-MET proto-oncogene are known oncogenic drivers that have proven responsive to targeted therapy. Mutations causing skipping of MET exon 14 are also oncogenic, but less well characterized. We undertook comprehensive genomic profiling (CGP) of a large series of advanced cancers to further characterize MET exon 14 alterations.

      Methods:
      DNA was extracted from 40 microns of FFPE sections from 38,028 advanced cancer cases. CGP was performed on hybridization-captured, adaptor ligation based libraries to a mean coverage depth of >500x using three versions of the FoundationOne test. Hybridization capture baits for the MET gene were identical for all three versions of the test. Base substitution, indel, copy number alteration, and rearrangement variant calls were examined to identify those nearby to the splice junctions of MET exon 14. These genomic alterations were then manually inspected to identify those likely to affect splicing of exon 14, or delete the exon entirely.

      Results:
      221 cases harboring MET ex14 alterations were identified. These patients had a median age of 70.5 years (range 15-88), with 97 males and 124 females. The cases were lung carcinoma (193), carcinomas of unknown primary (15), brain glioma (6), and one each of adrenal cortical carcinoma, hepatocellular carcinoma, histiocytic sarcoma, renal cell carcinoma, rhabdomyosarcoma, skin merkel cell carcinoma, and synovial sarcoma. The majority were stage IV. Identification of this alteration has lead to treatment with MET inhibitors such as crizotinib, and to durable partial responses or better exceeding 3 months in histiocytic sarcoma (1), sarcomatoid lung carcinoma (1), and nsclc (1+). Multiple patients (5+) have initiated treatment on either crizotinib or MET inhibitors in clinical development, and additional outcome data will be reported. One patient with locally advanced unresectable disease harbored a MET exon 14 skipping alteration. On initiation with treatment with an MET inhibitor, symptomatic relief was observed in 3 days, radiographic response was observed at two weeks, and resection was performed 8 weeks after initiation of the MET inhibitor.

      Conclusion:
      MET exon 14 alterations define a hereto unrecognized population of advanced cancer cases, particularly in NSCLC. Multiple case reports demonstrate that these alterations confer sensitivity to multiple small molecule MET inhibitors. This finding expands the population of advanced NSCLC patients who can derive benefit from MET-targeted therapies.

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    ORAL 42 - Drug Resistance (ID 160)

    • Event: WCLC 2015
    • Type: Oral Session
    • Track: Biology, Pathology, and Molecular Testing
    • Presentations: 1
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      ORAL42.04 - Rictor Alterations Elicit Mechanisms of Survival Advantage and Resistance to Targeted Therapy in Non-Small Cell Lung Cancer (NCSLC) (ID 2991)

      19:02 - 19:13  |  Author(s): G.M. Frampton

      • Abstract
      • Presentation

      Background:
      Rictor (RPTOR independent companion of MTOR, complex 2) is a highly conserved protein and is a critical component for assembly and functionality of the mTORC2 complex. Alterations of the PI3K/mTOR/AKT pathway are hallmark of many cancer types, underscoring the potential important role of Rictor. The goal of our current study was to characterize the functional consequences of genomic alterations of Rictor in advanced refractory NSCLC. Our preliminary data suggest that Rictor alterations have the potential to, not only signal canonically (via activation of AKT), but also provide cancer cells with alternate, more advantageous oncogenic signaling via non-canonical mechanisms.

      Methods:
      We correlated genomic data (DNA next generation sequencing (NGS), Foundation Medicine, Inc) gene expression profiling, and clinical outcome in the context of the ongoing BATTLE-2 clinical trial of targeted therapies in chemo-refractory NSCLC(198 cases). We further (1) surveyed early stage NSCLC cases(230 cases) in The Cancer Genome Atlas (TCGA) database to perform two-way hierarchical clustering comparing gene expression profiling in amplified vs diploid cases; (2) utilized a single-nucleotide polymorphism array to select Rictor amplified and diploid NSCLC cell lines; (3) assessed Rictor protein and RNA expression by Western blot and qRT-PCR, respectively; (4) performed Rictor knockdown (siRNA), and (5) performed drug sensitivity to targeted therapies by MTS assay.

      Results:
      In the Battle-2 cases, we identified 15% of Rictor alterations (9% gene amplifications, 6.6% mutations, non-concomitant). Among the mutations, 1 was mapped to an N-terminal phosphorylation site, while all others are of unknown significance to date. Rictor alterations were significantly associated with lack of 8-week disease control in the AKTi+MEKi therapeutic arm. In the TCGA we found: (1) 10% Rictor amplifications and 3% mutations; (2) significant correlation between amplification and elevated Rictor gene expression; (3) a putative functional gene expression signature associated with Rictor amplification. In diploid cell lines we found concordance between AKT phosphorylation and activation of other downstream mTORC2 targets (i.e. SGK1 and PKCĪ±), but in Rictor amplified cell lines we witnessed a discordant activation of these pathways. Furthermore, following Rictor knockdown in our amplified cell lines, a significant reduction of colony formation, migratory, and invasive potential was seen in a pathway-differential manner. Thus, suggesting that Rictor amplifications may provide survival advantage in select cancer cells by tipping the signaling balance toward a non-canonical oncogenic pathway (AKT-independent[I1] ).Also in a differential pathway manner, Rictor gene amplification and overexpression contributed to resistance to a number of targeted therapies

      Conclusion:
      Rictor alterations may constitute a potential novel mechanism of targeted therapy resistance via the activation of non-canonical signaling pathways. These alterations could define new molecular NSCLC subtypes with distinct biology that expose unique avenues for therapeutic implication. Ongoing studies are exploring therapeutic vulnerabilities, non-canonical signaling and Rictor mutations.

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