Immune Composition and Immunotherapy Outcomes of Mesothelioma With BAP1, CDKN2A, MTAP, and NF2 Alterations.

INTRODUCTION

First-line mesothelioma treatment paradigms prioritize histology without integrating molecular features. Findings from other thoracic cancers suggest that tumor immune microenvironment (TME) composition and immunotherapy efficacy are informed by genomic profile. Mesothelioma studies exploring the relationship between molecular alterations, immune infiltrate, and immunotherapy outcomes are needed.

METHODS

Exome and transcriptomic sequencing and multiplex immunofluorescence were performed on pleural and peritoneal mesotheliomas annotated for BAP1, CDKN2A, MTAP, and NF2 (merlin) status to infer immune cell abundance and TME composition. Progression-free survival and overall survival on ipilimumab plus nivolumab was retrospectively determined according to molecular profile.

RESULTS

Transcriptional analysis segregated 113 mesothelioma specimens (n = 85 epithelioid, n = 28 non-epithelioid) into the following four predefined TME groups: fibrotic (n = 14), immune desert (n = 52), immune-enriched fibrotic (n = 13), and immune-enriched nonfibrotic (n = 34). The composition of the immune infiltrate was similar when tumors with BAP1 alterations were compared with BAP1 wild-type tumors. In contrast, specimens with MTAP or CDKN2A loss had global decrease in immune populations with predominance of the immune desert phenotype. There was nonsignificant increase in T lymphocytes in NF2-altered tumors. Multiplex immunofluorescence similarly demonstrated increased T lymphoid infiltrate in mesotheliomas with merlin loss, including regulatory T cells. On ipilimumab plus nivolumab, patients with BAP1 alterations had improved survival whereas those with NF2 and CDKN2A alterations had shorter survival.

CONCLUSIONS

Composition of the immune infiltrate may be distinct for mesotheliomas with loss of 9p21 genes (i.e., MTAP, CDKN2A) and NF2 alterations. Overall immune infiltrate abundance did not align with immunotherapy outcomes. Future immunotherapy biomarker development strategies should consider molecular background and functional characterization of mesothelioma tumor-immune interactions.