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K. Politi



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    MINI 01 - Pathology (ID 93)

    • Event: WCLC 2015
    • Type: Mini Oral
    • Track: Biology, Pathology, and Molecular Testing
    • Presentations: 1
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      MINI01.14 - Discussant for MINI01.10, MINI01.11, MINI01.12, MINI01.13 (ID 3298)

      10:45 - 12:15  |  Author(s): K. Politi

      • Abstract
      • Presentation
      • Slides

      Abstract not provided

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    MINI 09 - Drug Resistance (ID 107)

    • Event: WCLC 2015
    • Type: Mini Oral
    • Track: Biology, Pathology, and Molecular Testing
    • Presentations: 1
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      MINI09.06 - Oncogenic Drivers including RET and ROS1 plus PTEN Loss and MET by IHC in Patients with Lung Adenocarcinomas: Lung Cancer Mutation Consortium 2.0 (ID 2114)

      16:45 - 18:15  |  Author(s): K. Politi

      • Abstract
      • Presentation
      • Slides

      Background:
      The Lung Cancer Mutation Consortium (LCMC) 1.0 demonstrated multiplexed genomic platforms can assay 10 oncogenic drivers in tumor specimens from patients with lung adenocarcinomas. 28% of the patients with oncogenic drivers could be effectively targeted. The survival of these 275 patients treated with targeted agents was longer than the patients who were not treated with a targeted agent (Kris and Johnson JAMA 2014). The efficiency of Next-Generation Sequencing enables more comprehensive testing of additional aberrations with less tumor tissue. LCMC 2.0 was initiated to test tumor specimens for 12 oncogenic drivers and to provide the results to clinicians for treatment decisions and research purposes.

      Methods:
      The 16 site LCMC 2.0 is testing tumors from 1000 patients with lung adenocarcinomas in CLIA laboratories for mutations in KRAS, EGFR, HER2, BRAF, PIK3CA, AKT1, and NRAS, MET DNA amplification, and rearrangements in ALK as done in LCMC 1.0. The new genes that were added because of emerging information about potential therapeutic targets include MAP2K1 mutations, RET and ROS1 rearrangements, PTEN (MAb 138G4) loss and MET (MAb SP44) overexpression by immunohistochemistry (IHC). All patients were diagnosed with stage IIIB/IV lung adenocarcinoma after May 2012, had a performance status 0-2, and available tumor tissue.

      Results:
      Of 1073 patients registered, data is now reported for 759. The median age of the patients is 65 (23-90). The population includes 369 (55%) women; 164 (24%) never smokers, 399 (59%) former smokers, and 73 (11%) current smokers; 26 (4%) Asians, 58 (9%) African American, 548 (81%) Caucasian, and 43 (6%) of other races. As of April 2015 information on genomic and immunohistochemical changes for 675 eligible patients were recorded in our database. Alterations in oncogenic drivers were found in 45% of samples as follows: 159 KRAS (24%), 88 EGFR (13%), 25 ALK (4%), 19 BRAF (3%), 17 PIK3CA (3%), 9 HER2 (1%), 4 NRAS (1%) 0 AKT1, 28 had ≥ 2 findings (4%) and 25 MET DNA amplification (4%). The new genes studied in LCMC 2.0 revealed 1 MAP2K1 mutation (<1%), 19 RET (3%) and 9 ROS (1%) rearrangements, 94 had PTEN loss (14%), and 362 with MET overexpression (54%). As expected, PIK3CA mutations and PTEN loss by IHC were mutually exclusive in 109 of 111 (98%) patients’ tumors. Seventeen of the 23 (74%) with MET DNA amplification studied thus far with IHC had MET overexpression. Next-Generation platforms were used at 13 of 16 LCMC 2.0 sites.

      Conclusion:
      Next-Generation Sequencing is rapidly becoming routine practice at LCMC 2.0 centers with use going from 0 to 81% of sites since 2012. LCMC 2.0 identified additional targets (RET and ROS1 rearrangements and PTEN loss). PIK3CA and PTEN were largely mutually exclusive and an actionable oncogenic driver has been identified in the 45% of initial lung adenocarcinoma specimens. Supported by Free to Breathe

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