Journal for ImmunoTherapy of Cancer (Aug 2021)

Oncogene-specific differences in tumor mutational burden, PD-L1 expression, and outcomes from immunotherapy in non-small cell lung cancer

  • Jianhua Zhang,
  • Hao Xu,
  • Alexandre Reuben,
  • Brian Alexander,
  • Jack Lee,
  • Tina Cascone,
  • Jianjun Zhang,
  • Kyle G Mitchell,
  • Marcelo V Negrao,
  • Stephen G Swisher,
  • John V Heymach,
  • Don L Gibbons,
  • Jack A Roth,
  • Ferdinandos Skoulidis,
  • Yasir Y Elamin,
  • Xiuning Le,
  • Anne Tsao,
  • Chang-Jiun Wu,
  • Vincent A Miller,
  • Bonnie S Glisson,
  • Karthikeyan Murugesan,
  • Meagan Montesion,
  • Garrett Frampton,
  • Katja Schulze,
  • Ilze Bara,
  • Vincent Shen,
  • Sylvia Hu,
  • Dawen Sui,
  • Michael E Goldberg,
  • David S Barreto,
  • Jacqulyne P Robichaux,
  • Carl M Gay,
  • Lingzhi Hong,
  • Waree Rinsurongkawong,
  • Vassiliki Papadimitrakopoulou,
  • Gaurav Singal,
  • Lee A Albacker,
  • David Shames

DOI
https://doi.org/10.1136/jitc-2021-002891
Journal volume & issue
Vol. 9, no. 8

Abstract

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Background Non-small cell lung cancer (NSCLC) patients bearing targetable oncogene alterations typically derive limited benefit from immune checkpoint blockade (ICB), which has been attributed to low tumor mutation burden (TMB) and/or PD-L1 levels. We investigated oncogene-specific differences in these markers and clinical outcome.Methods Three cohorts of NSCLC patients with oncogene alterations (n=4189 total) were analyzed. Two clinical cohorts of advanced NSCLC patients treated with ICB monotherapy [MD Anderson (MDACC; n=172) and Flatiron Health-Foundation Medicine Clinico-Genomic Database (CGDB; n=894 patients)] were analyzed for clinical outcome. The FMI biomarker cohort (n=4017) was used to assess the association of oncogene alterations with TMB and PD-L1 expression.Results High PD-L1 expression (PD-L1 ≥50%) rate was 19%–20% in classic EGFR, EGFR exon 20 and HER2-mutant tumors, and 34%–55% in tumors with ALK, BRAF V600E, ROS1, RET, or MET alterations. Compared with KRAS-mutant tumors, BRAF non-V600E group had higher TMB (9.6 vs KRAS 7.8 mutations/Mb, p=0.003), while all other oncogene groups had lower TMB (p<0.001). In the two clinical cohorts treated with ICB, molecular groups with EGFR, HER2, ALK, ROS1, RET, or MET alterations had short progression-free survival (PFS; 1.8–3.7 months), while BRAF V600E group was associated with greater clinical benefit from ICB (CGDB cohort: PFS 9.8 months vs KRAS 3.7 months, HR 0.66, p=0.099; MDACC cohort: response rate 62% vs KRAS 24%; PFS 7.4 vs KRAS 2.8 months, HR 0.36, p=0.026). KRAS G12C and non-G12C subgroups had similar clinical benefit from ICB in both cohorts. In a multivariable analysis, BRAF V600E mutation (HR 0.58, p=0.041), PD-L1 expression (HR 0.57, p=0.022), and high TMB (HR 0.66, p<0.001) were associated with longer PFS.Conclusions High TMB and PD-L1 expression are predictive for benefit from ICB treatment in oncogene-driven NSCLCs. NSCLC harboring BRAF mutations demonstrated superior benefit from ICB that may be attributed to higher TMB and higher PD-L1 expression in these tumors. Meanwhile EGFR and HER2 mutations and ALK, ROS1, RET, and MET fusions define NSCLC subsets with minimal benefit from ICB despite high PD-L1 expression in NSCLC harboring oncogene fusions. These findings indicate a TMB/PD-L1-independent impact on sensitivity to ICB for certain oncogene alterations.