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Giuseppe Lamberti



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    MA09 - EGFR & MET (ID 128)

    • Event: WCLC 2019
    • Type: Mini Oral Session
    • Track: Targeted Therapy
    • Presentations: 1
    • Now Available
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      MA09.11 - Mechanisms of Resistance to MET Tyrosine Kinase Inhibitors in Patients with MET Exon 14 Mutant Non-Small Cell Lung Cancer (Now Available) (ID 1421)

      15:15 - 16:45  |  Author(s): Giuseppe Lamberti

      • Abstract
      • Presentation
      • Slides

      Background

      Type I and II MET tyrosine kinase inhibitors (TKIs) are under development for patients with MET exon 14 mutant non-small cell lung cancer (NSCLC). Understanding the mechanisms driving resistance to MET TKIs is critical to design novel treatment strategies for this molecular subtype of NSCLC.

      Method

      Among patients with MET exon 14 mutant NSCLC treated with MET TKIs, pre- and post-TKI tumor tissue specimens and plasma samples were analyzed using next-generation sequencing (NGS) to explore genomic mechanisms of resistance upon disease progression.

      Result

      Between April 2014 to March 2019, 38 patients were treated with MET TKIs. Among these, paired samples from 15 individuals were evaluable for this study. Patients were treated with MET TKIs in the first-line (N=7; 46.7%), second-line (N=5; 33.3%), third-line (N=1; 6.7%) and fourth-line (N=2: 13.3%) setting. Eight patients were treated with one type I MET TKI and 7 patients received ≥2 MET TKIs. On target mechanisms of resistance were identified in 5 patients (33.3%), through secondary mutations in the MET tyrosine kinase domain (N=4) and MET amplification (N=1). Single MET kinase domain mutations D1228H/N were detected in 2 patients progressing on treatment with a type I MET TKI. In two cases, tumor tissue revealed only one resistance mutation (case #1 with Y1230H; case #2 with H1094Y), whereas paired plasma analysis demonstrated ≥3 resistance mutations in ctDNA (case #1 with G1163R, D1228N, Y1230H/S; case #2 with H1094Y, L1195F/V), reflecting the emergence of polyclonal on-target resistance. Off-target mechanisms of acquired resistance were identified in 7 patients treated with Type I MET TKI (46.7%) and involved amplification of EGFR (N=2), EGFR/HER2 (N=1), EGFR/HER3 (N=1), KRAS (N=1), EGFR/KRAS/BRAF (N=1), CCND1 (N=1). In 2 cases with bypass activation, sequential treatment with type II MET TKIs did not confer benefit. A concurrent NF1 mutation was present at baseline in a patient with primary resistance to MET TKI (6.7%). In 2 patients (13.3%), no genomic mechanisms of resistance were identified.

      Conclusion

      The landscape of resistance mechanisms to MET TKIs in NSCLC includes single and polyclonal secondary kinase domain mutations and bypass track activation by amplification of key oncogenes involving the ErbB/HER family of tyrosine kinase receptors and the MAPK signaling pathway. Given the complexity of resistance, therapeutic efforts to prevent acquired resistance in MET exon 14 mutant NSCLC should be developed.

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    OA03 - Systemic Therapies for SCLC: Novel Targets and Patients' Selection (ID 121)

    • Event: WCLC 2019
    • Type: Oral Session
    • Track: Small Cell Lung Cancer/NET
    • Presentations: 1
    • Now Available
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      OA03.07 - Immune-Related Adverse Events and Clinical Outcome to Anti PD-1 Axis Inhibition in SCLC: A Multicenter Retrospective Analysis (Now Available) (ID 2880)

      13:30 - 15:00  |  Author(s): Giuseppe Lamberti

      • Abstract
      • Presentation
      • Slides

      Background

      Immune-checkpoint inhibitors (ICIs) have shown promising activity in only a fraction of patients with small cell lung cancer (SCLC), and factors associated with clinical benefit are not well characterized. The development of immune-related adverse events (irAEs) may correlate with benefit from immune checkpoint inhibitors (ICIs) among patients with cancer. Whether an association exists between irAE development and improved clinical outcomes to ICIs in small cell lung cancer (SCLC) is unknown.

      Method

      We retrospectively analyzed data from five participating academic centers: the Dana-Farber Cancer Institute, East Carolina University, Columbia University, Beth Israel Deaconess Medical Center, and Johns Hopkins University. Patients with SCLC who received at least one dose of a programmed death (ligand) PD-(L)1 inhibitor alone or in combination with a cytotoxic T-lymphocyte associated protein 4 (CTLA-4) inhibitor were included in this study. To account for the time-dependent nature of irAE onset and clinical benefit from immunotherapy, we identified patients with early irAEs (defined as those occurring within 6 weeks of ICI treatment initiation) and performed a landmark analysis at this time point.

      Result

      Among 157 patients treated with ICIs, 65 (41.4%) experienced at least one irAE. Median time to the first irAE onset was 28 days (IQR:15-56). Baseline clinicopathologic characteristics were well balanced between patients who developed irAEs and those who did not. Median tumor mutational burden (TMB) was significantly higher among patients with irAEs compared to those without (14.4 vs 8.4 mutations/megabase [mut/Mb], P <0.01). Patients who developed at least one irAE had a significantly higher objective response rate (26.3% versus 3.3%, P <0.001), and significantly longer median progression-free survival (mPFS, 4.1 vs 1.3 months, HR: 0.30 [0.20-0.43, P <0.001]) and median overall survival (mOS, 14.1 vs 2.9 months, HR: 0.32 [0.21-0.48], P <0.001). The proportion of patients who were progression-free at 6, 9, and 12 weeks was significantly higher in patients who developed early irAEs compared to those who did not develop early irAEs (6 weeks: 89.5% vs 69.5%, P =0.01; 9 weeks: 71.1% vs 40%, P =0.001; 12 weeks: 65.8% vs. 31.6%, P <0.001). The median TMB was also significantly higher in patients who developed early irAEs (14.5 vs 8.7 mut/Mb, P <0.01).

      Conclusion

      Patients with SCLC treated with ICIs who developed early irAEs had a higher TMB and enhanced antitumor responses compared to those who did not develop irAEs. Whether a higher TMB is associated with the development of irAEs remains to be determined mechanistically.

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    P2.04 - Immuno-oncology (ID 167)

    • Event: WCLC 2019
    • Type: Poster Viewing in the Exhibit Hall
    • Track: Immuno-oncology
    • Presentations: 1
    • Now Available
    • Moderators:
    • Coordinates: 9/09/2019, 10:15 - 18:15, Exhibit Hall
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      P2.04-32 - Comparison of Clinicopathological and Genomic Characteristics Between NSCLCs with a PD-L1 Tumor Proportion Score of ≥90% vs &lt;1% (Now Available) (ID 2618)

      10:15 - 18:15  |  Presenting Author(s): Giuseppe Lamberti

      • Abstract
      • Slides

      Background

      Determinants of PD-L1 expression in non-small cell lung cancer (NSCLC) are poorly defined. To identify characteristics associated with high vs. absent PD-L1 expression, we compared clinicopathologic and genomic features of NSCLCs at the two ends of PD-L1 expression spectrum: a PD-L1 tumor proportion score (TPS) of ≥90% or a PD-L1 TPS of <1%.

      Method

      We retrospectively collected clinicopathologic and genomic data (via targeted NGS) from consecutive NSCLC patients who had consented to an IRB-approved correlative research study and whose tumor PD-L1 TPS was either ≥90% or <1%. Single nucleotide variations, insertions/deletions, and copy number alterations were compared using Fisher’s exact test. Tumor mutational burden (TMB) was compared using Mann-Whitney test.

      Result

      421 NSCLCs with PD-L1 TPS ≥90% (N=133) or <1% (N=288) and successfully performed NGS were identified. There was no difference in age, sex, histology, or stage at diagnosis between the two groups. Patients with a PD-L1 TPS of ≥90% were more likely to be smokers (86.5% vs 76.4%; P=0.02) compared to patients with a PD-L1 TPS of <1%, and tumors in the PD-L1 TPS ≥90% group had higher TMB (10.89 vs 8.47 mutations/megabase; P=0.004) than those in the PD-L1 TPS <1% group. Tumors in the PD-L1 TPS ≥90% group were more likely to have KRAS (47.3% vs 31.3%; P=0.002), MET exon 14 (9.6% vs 2.1%; P=0.003), and TP53 mutations (71.0% vs 49.7%; P<0.001) than those in the PD-L1 TPS <1% group. Compared to the PD-L1 TPS ≥90% group, the PD-L1 TPS <1% group was more likely to have EGFR (23.6% vs 8.2%; P<0.001) and STK11 (23.4% vs 5.0%; P<0.001) mutations, as well as the absence of known oncogenic driver mutations (35.2% vs 24.8%; P=0.04). Chromosomal gain alterations (amplification or copy number gain) of the 9p24.1 locus, where the PD-L1, PD-L2, and JAK2 genes are located, were more common in the PD-L1 TPS ≥90% group than in the PD-L1 TPS <1% group (11.4% vs 2.8%, respectively; P<0.001). Chromosomal loss alterations (copy loss or deletion) of the 9p24.1 locus were more common in the PD-L1 TPS <1% than in the PD-L1 TPS ≥90% group (27.5% vs 3.8%, respectively; P<0.001). A repeated biopsy case showed acquired loss PD-L1 expression (PD-L1 TPS changed from 90% to 0%) with concomitant acquired loss of the 9p24.1 locus.

      Conclusion

      High PD-L1 expression in NSCLC is associated with tobacco use, high TMB, gain of the 9p24.1 locus and mutations in KRAS, MET exon 14, and TP53. PD-L1 negativity is associated with never smoking status, low TMB, loss of the 9p24.1 locus, mutations in EGFR and STK11, and the absence of oncogenic driver mutations.

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