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R. Heist



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    MA 02 - Emerging Targets (ID 656)

    • Event: WCLC 2017
    • Type: Mini Oral
    • Track: Clinical Design, Statistics and Clinical Trials
    • Presentations: 1
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      MA 02.10 - Phase I Study of ABBV-399 (Telisotuzumab Vedotin) as Monotherapy and in Combination with Erlotinib in NSCLC (ID 9466)

      11:00 - 12:30  |  Author(s): R. Heist

      • Abstract
      • Presentation
      • Slides

      Background:
      The c-Met receptor is overexpressed in ~50% of patients (pts) with non-small cell lung cancer (NSCLC). ABBV-399 is a first-in-class antibody-drug conjugate composed of ABT-700, an anti–c-Met antibody, conjugated to monomethyl auristatin E (a microtubule inhibitor). Preclinical data demonstrate that ABBV-399 can deliver a potent cytotoxin directly to c-Met+ tumor cells.

      Method:
      ABBV-399 was administered at doses ranging from 2.4 to 3.0 mg/kg (dose expansion and combination cohorts at 2.7 mg/kg) once every 21 days to 29 pts with advanced c-Met+ (immunohistochemistry [IHC] H-score ≥150) NSCLC both as monotherapy (ABBV-399/monotherapy; 16 pts) and in combination with oral erlotinib 150 mg daily (ABBV-399/ERL; 13 pts) (NCT02099058). c-Met expression was assessed by IHC utilizing the SP44 antibody (Ventana; Tucson, AZ, USA).

      Result:
      As of April 26, 2017, 16 pts with c-Met+ NSCLC received ≥1 dose of ABBV-399/monotherapy. Monotherapy treatment-related adverse events (TRAEs) occurring in ≥10% of pts (all dose levels and all grades) were fatigue (43.8%), nausea (37.5%), neuropathy (25.0%), vomiting (18.8%), anemia, constipation, and diarrhea (12.5% each). Three of 16 (19%) ABBV-399–treated c-Met+ NSCLC pts had a confirmed partial response (PR) with duration of response (DOR) 3.1, 4.8, and 11.1 months. At week 12, 9 of 16 pts (56.3%) had disease control. TRAEs in ABBV-399/ERL occurring in ≥10% of pts (all grades) were neuropathy (46.2%), nausea (23.1%), fatigue, acneiform rash, dry skin, and diarrhea (15.4% each). Four of 13 (31%) evaluable ABBV-399/ERL–treated c-Met+ pts had a PR (3 confirmed, 1 unconfirmed) with DOR 2.8, 5.3, 4.2+, and 9.1+ months. Three of the 4 pts with PR had EGFR-mutated tumor and recently progressed on TKI. At week 12, 10 of 13 pts (76.9%) had disease control. There were no treatment-related deaths as monotherapy or in combination with erlotinib. Responses were seen in both squamous and non-squamous histology.

      Conclusion:
      ABBV-399 is well tolerated at 2.7 mg/kg once every 21 days and has demonstrated antitumor activity in pts with c-Met+ NSCLC both as monotherapy and in combination with erlotinib. Early evidence suggests that ABBV-399 represents a novel treatment paradigm effective against multiple c-Met+ NSCLC molecular subtypes and histologies. Updated efficacy/safety data and c-Met IHC status will be presented. Safety and efficacy data from Q2week dosing of ABBV-399 will also be presented.

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    OA 07 - Biomarker for Lung Cancer (ID 659)

    • Event: WCLC 2017
    • Type: Oral
    • Track: Biology/Pathology
    • Presentations: 1
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      OA 07.05 - Serial Biopsies in Patients with EGFR-Mutant NSCLC Highlight the Spatial and Temporal Heterogeneity of Resistance Mechanisms (ID 10181)

      15:45 - 17:30  |  Author(s): R. Heist

      • Abstract
      • Presentation
      • Slides

      Background:
      Resistance to EGFR tyrosine kinase inhibitors (TKIs) limits treatment outcomes among patients with EGFR-mutant NSCLC. Resistance mechanisms have previously been conceptualized as binary “positive/negative” variables, but emerging evidence suggests resistant cancers are heterogeneous, and subclones may be appreciated through multiple biopsies.

      Method:
      We retrospectively analyzed 221 EGFR mutant pts at MGH who had >1 biopsy after progression on their initial EGFR inhibitor. Data on acquired resistance (AR) mechanisms observed at each biopsy, adverse events, and treatment were collected.

      Result:
      Among 221 pts with a total of 355 post-AR tissue biopsies, median age was 59 (range, 28-88), 69% were female, 64% had EGFR del19, 33% L858R and 3% other activating mutations. Median number of biopsies per patient was 1 (range, 1-4). Biopsies at first resistance to EGFR TKI showed 61% T790M, 5% MET amplification (amp), 3% SCLC transformation, 2% acquired PIK3CA and 1% acquired BRAF mutations. 83 pts had two biopsies during their post-resistance course; 43/83 (52%) had heterogeneity between biopsy 1 and 2. In particular, 20% “lost” T790M, while 11% “gained” T790M. Among 17 pts who lost T790M, 3 gained a separate resistance mechanism, including MET amp and BRAF V600E. In some cases, synchronous biopsies identified spatial heterogeneity. For example, an osimertinib-resistant patient had a T790M/C797S lung nodule, while a concurrent mediastinal lymph node was wild-type at both loci (both sites retained the activating EGFR mutation). Similarly, another osimertinib-resistant patient with MET amp in a pleural effusion cell block had a lung nodule biopsy which lacked MET amp; the patient was treated with combination EGFR and MET inhibitors with a partial response. Additional details regarding concurrent liquid biopsies, treatment histories and clinical outcomes will be presented.

      Conclusion:
      In this large cohort of EGFR mutant NSCLC patients, we frequently observed variations in resistance mechanisms in patients with > 1 post-AR biopsy. Our data highlights the heterogeneity of resistant cancers and the limitations of a single biopsy in fully capturing the spectrum of resistance mechanisms in each patient. Serial biopsies or non-invasive methods may be required to characterize resistance and identify potential therapeutic targets.

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    OA 12 - Emerging Genomic Targets (ID 679)

    • Event: WCLC 2017
    • Type: Oral
    • Track: Advanced NSCLC
    • Presentations: 1
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      OA 12.02 - Final Results of a Phase 2 Study of the hsp90 Inhibitor Luminespib (AUY922) in NSCLC Patients Harboring EGFR Exon 20 Insertions (ID 10182)

      11:00 - 12:30  |  Author(s): R. Heist

      • Abstract
      • Presentation
      • Slides

      Background:
      EGFR exon 20 insertions (ins20) comprise 4-10% of EGFR mutations in NSCLC and are refractory to 1[st]/2[nd] generation EGFR TKIs. No effective targeted therapies exist for patients with EGFR ins20. EGFR is a client protein of the molecular chaperone Heat Shock Protein 90 (hsp90). Here, we present the final results of a phase II investigator-initiated trial to assess the activity of the Hsp90 inhibitor luminespib (AUY922) in NSCLC patients with EGFR ins20 (NCT01854034).

      Method:
      Between 8/2013 and 10/2016, the study enrolled 29 patients with stage IV NSCLC, EGFR ins20 identified on local testing, ECOG PS 0-2, at least one prior line of therapy and no untreated brain metastases. The study was closed on 2/28/17 when the available drug supply was exhausted. Luminespib was given at 70mg/m2 IV weekly. Response was assessed by RECIST 1.1 every 6 weeks; treatment beyond progression was allowed. Dose interruptions and dose reductions were allowed as needed for toxicity management. Primary endpoint was ORR with a target disease control rate (DCR; PR/CR plus SD lasting > 3 mos) of > 20%. Secondary endpoints were PFS, OS, safety and response by EGFR ins20 subtype.

      Result:
      29 patients (18 female/11 male, median age 60 (range, 31-79)) were enrolled. Median number of prior therapies = 1 (range, 1-5.) 4/29 achieved PR and 1 CR (ORR 5/29; 17%). 15 patients had SD and 9 had PD as their best response. mPFS was 2.9 mos (95% CI, 1.4-5.6,) mOS was 13 mos (95% CI, 4.9-19.5.) DCR was 11/29 (38%). Among 19 patients with baseline PS 0-1 and < 2 prior therapies, ORR = 21% and mPFS = 5.1 mos (95% CI, 2.1-11.8.) The most common luminespib-related toxicities were visual changes (22/29; 76%) diarrhea (21/29; 72%) and fatigue (13/29; 45%). Treatment-related grade 3 toxicities included ocular toxicity (1/29; 3%), hypertension (3/29; 10%) and hypophosphatemia (1/29; 3%). All study treatment was stopped on 2/28/17 due to lack of drug availability; 3 patients were on treatment without progression at study termination.

      Conclusion:
      The study met its primary endpoint and suggests that luminespib may be an active therapy for advanced NSCLC patients with EGFR ins20. Luminespib is generally well-tolerated, though reversible low-grade ocular toxicity is common. Further study of luminespib and other Hsp90 inhibitors in this population is warranted, as are novel systems to continue drug supply for benefitting patients when availability of experimental compounds is limited.

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    OA 17 - Immunotherapy II (ID 683)

    • Event: WCLC 2017
    • Type: Oral
    • Track: Immunology and Immunotherapy
    • Presentations: 1
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      OA 17.02 - Updated Efficacy Results From the BIRCH Study: First-Line Atezolizumab Therapy in PD-L1–Selected Patients With Advanced NSCLC (ID 8006)

      14:30 - 16:15  |  Author(s): R. Heist

      • Abstract
      • Presentation
      • Slides

      Background:
      The anti–PD-L1 mAb atezolizumab blocks the interactions between PD-L1 and its receptors, PD-1 and B7.1, thus restoring anti-tumor immunity. A Phase II study of atezolizumab monotherapy was conducted across multiple lines of therapy in PD-L1–selected patients with advanced NSCLC (BIRCH; NCT02031458). The primary analyses showed meaningful and durable clinical benefit with atezolizumab monotherapy in 1L and 2L+ NSCLC. Here we present updated survival data (median follow-up, 29.7 months) in patients receiving 1L atezolizumab.

      Method:
      Eligible patients had chemotherapy-naive, locally advanced or metastatic NSCLC without CNS metastases. Prior TKI therapy was required in patients with EGFR mutation or ALK rearrangement. PD-L1 expression on tumor cells (TC) and tumor-infiltrating immune cells (IC) was centrally evaluated (VENTANA SP142 IHC assay). Patients who were TC2/3 or IC2/3 (PD-L1 expression on ≥ 5% of TC or IC) were enrolled. Atezolizumab 1200 mg was administered IV q3w until disease progression or unacceptable toxicity. The primary endpoint was independent review facility (IRF)–assessed ORR. Secondary endpoints included investigator (INV)-assessed ORR, DOR, PFS (RECIST v1.1) and OS.

      Result:
      With a median follow-up of 29.7 months, median OS was 26.9 months (TC3 or IC3 subgroup) and 24.0 months (all treated patients); INV-assessed ORR was 35% (TC3 or IC3 subgroup) and 26% (all treated patients; Table). Among evaluable patients, the ORR was 31% for mutant EGFR (4/13) vs 23% for wild-type EGFR patients (24/103), and 31% for mutant KRAS (10/32) vs 24% for wild-type KRAS patients (16/66). No new safety signals were observed.

      Conclusion:
      With more than 2 years of follow-up, atezolizumab continued to demonstrate durable clinical activity in 1L NSCLC, regardless of EGFR and KRAS mutational status. These data suggest that atezolizumab monotherapy has promising activity as a frontline therapy. Ongoing Phase III trials are evaluating atezolizumab-based regimens vs chemotherapy in 1L NSCLC.

      Endpoint (95% CI) TC3 or IC3[a ](n = 65) TC2 or IC2[b] (n = 73) All Treated Patients (N = 138)
      INV-assessed ORR, % 35% (23.9, 48.2) 18% (9.8, 28.5) 26% (19.0, 34.2)
      EGFR mutant/wild-type, % 25%/33% 33%/15% 31%/23%
      KRAS mutant/wild-type, % 38%/33% 25%/15% 31%/24%
      mDOR, mo 16.5 (8.5, NE) 12.5 (8.3, 17.9) 13.1 (9.9, NE)
      mOS, mo 26.9 (12.0. NE) 23.5 (18.1, NE) 24.0 (18.1, 31.9)
      12-mo OS rate, % 61% (49.0, 74.0) 71% (59.8, 81.5) 66% (58.1, 74.6)
      24-mo OS rate, % 52% (39.3, 65.2) 49% (37.0, 61.1) 50% (41.5, 59.2)
      30-mo OS rate, % 48% (35.3, 61.5) 39% (27.2, 51.2) 43% (34.3, 52.1)
      mPFS, mo 7.3 (4.9, 12.0) 7.6 (4.0, 9.7) 7.6 (5.7, 9.7)
      12-mo PFS rate, % 38% (25.1, 49.9) 30% (19.2, 41.2) 34% (25.3, 41.9)
      24-mo PFS rate, % 28% (16.5, 40.0) 13% (4.5, 21.5) 20% (12.9, 27.5)
      30-mo PFS rate, % 19% (5.4, 33.5) 9% (1.4, 16.4) 14% (6.5, 21.9)
      NE, not estimable. [a ]TC ≥ 50% or IC ≥ 10% PD-L1–expressing cells.[b ]TC2/3 or IC2/3 excluding TC3 or IC3.


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    P2.04 - Clinical Design, Statistics and Clinical Trials (ID 705)

    • Event: WCLC 2017
    • Type: Poster Session with Presenters Present
    • Track: Clinical Design, Statistics and Clinical Trials
    • Presentations: 1
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      P2.04-005 - GEOMETRY Mono-1: Phase II, Multicenter Study of MET Inhibitor Capmatinib (INC280) in EGFR Wt, MET-Dysregulated Advanced NSCLC (ID 8961)

      09:30 - 16:00  |  Author(s): R. Heist

      • Abstract
      • Slides

      Background:
      Amplification of MET leading to oncogenic signaling occurs in 3‒5% of newly diagnosed EGFR wild type (wt) non-small cell lung cancer (NSCLC) cases with decreasing incidence at higher levels of amplification. Mutations in MET leading to exon 14 deletion (METΔ[ex14]) also occur in 2–4% of adenocarcinoma and 1–2% of other NSCLC subsets. Capmatinib (INC280) is a potent and selective MET inhibitor that has shown strong evidence of antitumor activity in a phase I study in patients with EGFR wt advanced NSCLC harboring MET amplification and METΔ[ex14].

      Method:
      This phase II, multicenter study (NCT02414139) was designed to confirm the clinical activity of capmatinib in patients with advanced NSCLC by MET amplification and METΔ[ex14] status. Eligible patients (≥18 years of age, Eastern Cooperative Oncology Group Performance Status 0–1) must have ALK-negative, EGFR wt, stage IIIB/IV NSCLC (any histology). Centrally assessed MET amplification (gene copy number [GCN]) and mutation status is used to assign patients to one of the below cohorts: Pretreated with 1–2 prior systemic lines of therapy for advanced setting (cohorts 1–4): 1a: MET amplification GCN ≥10 (n=69) 1b: MET amplification GCN ≥6 and <10 (n=69) 2: MET amplification GCN ≥4 and <6 (n=69) 3: MET amplification GCN <4 (n=69) 4: METΔ[ex14] mutation regardless of MET GCN (n=69) Treatment naïve (cohorts 5a and 5b): 5a: MET amplification GCN ≥10 and no METΔ[ex14] mutation (n=27) 5b: METΔ[ex14] mutation regardless of MET GCN (n=27) Capmatinib 400 mg tablets are orally administered twice daily on a continuous dosing schedule 12 hours apart. Primary and key secondary endpoints are overall response rate (ORR) and duration of response (DOR), respectively (blinded independent review assessment). Other secondary endpoints include investigator-assessed ORR, DOR, time to response, disease control rate, progression-free survival (independent and investigator assessment), safety, and pharmacokinetics. Enrollment is ongoing in 25 countries. Cohorts 1b, 2, and 3 are now closed to enrollment; cohorts 1a and 4 continue to enroll patients who have received 1–2 prior lines of therapy in the advanced setting, and cohorts 5a and 5b are open for enrollment of treatment-naïve patients. Responses have been seen in both MET-amplified and MET-mutated patients irrespective of the line of therapy.

      Result:
      Section not applicable

      Conclusion:
      Section not applicable

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