Purpose: CD8+ tumor-infiltrating lymphocytes (TIL) are key mediators of antitumor immunity and are strongly associated with survival in virtually all solid tumors. However, the prognostic effect of CD8+ TIL is markedly higher in the presence of CD20+ B cells, suggesting that cooperative interactions between these lymphocyte subsets lead to more potent antitumor immunity. Experimental Design: We assessed the colocalization patterns, phenotypes, and gene expression profiles of tumor-associated T- and B-lineage cells in high-grade serous ovarian cancer (HGSC) by multicolor IHC, flow cytometry, and bioinformatic analysis of gene expression data from The Cancer Genome Atlas. Results: T cells and B cells colocalized in four types of lymphoid aggregate, ranging from small, diffuse clusters to large, well-organized tertiary lymphoid structures (TLS) resembling activated lymph nodes. TLS were frequently surrounded by dense infiltrates of plasma cells (PC), which comprised up to 90% of tumor stroma. PCs expressed mature, oligoclonal IgG transcripts, indicative of antigen-specific responses. PCs were associated with the highest levels of CD8+, CD4+, and CD20+ TIL, as well as numerous cytotoxicity-related gene products. CD8+ TIL carried prognostic benefit only in the presence of PCs and these other TIL subsets. PCs were independent of mutation load, BRCA1/2 status, and differentiation antigens but positively associated with cancer–testis antigens. Conclusions: PCs are associated with the most robust, prognostically favorable CD8+ TIL responses in HGSC. We propose that TLS facilitate coordinated antitumor responses involving the combined actions of cytolytic T cells and antibody-producing PCs. Clin Cancer Res; 22(12); 3005–15. ©2016 AACR.
PD-L1 is primarily expressed by macrophages in ovarian cancer and is strongly associated with both cytolytic and regulatory TIL subsets, resulting in a net positive association with survival. Tumors containing PD-L1(+) macrophages appear caught in an immunological stalemate that may require multi-pronged immunotherapy to alleviate.
High-grade serous ovarian cancer (HGSC) exhibits extensive malignant clonal diversity with widespread but non-random patterns of disease dissemination. We investigated whether local immune microenvironment factors shape tumor progression properties at the interface of tumor-infiltrating lymphocytes (TILs) and cancer cells. Through multi-region study of 212 samples from 38 patients with whole-genome sequencing, immunohistochemistry, histologic image analysis, gene expression profiling, and T and B cell receptor sequencing, we identified three immunologic subtypes across samples and extensive within-patient diversity. Epithelial CD8+ TILs negatively associated with malignant diversity, reflecting immunological pruning of tumor clones inferred by neoantigen depletion, HLA I loss of heterozygosity, and spatial tracking between T cell and tumor clones. In addition, combinatorial prognostic effects of mutational processes and immune properties were observed, illuminating how specific genomic aberration types associate with immune response and impact survival. We conclude that within-patient spatial immune microenvironment variation shapes intraperitoneal malignant spread, provoking new evolutionary perspectives on HGSC clonal dispersion.
Purpose: Cancers accumulate mutations over time, each of which brings the potential for recognition by the immune system. We evaluated T-cell recognition of the tumor mutanome in patients with ovarian cancer undergoing standard treatment.Experimental Design: Tumor-associated T cells from 3 patients with ovarian cancer were assessed by ELISPOT for recognition of nonsynonymous mutations identified by whole exome sequencing of autologous tumor. The relative levels of mutations and responding T cells were monitored in serial tumor samples collected at primary surgery and first and second recurrence.Results: The vast majority of mutations (78/79) were not recognized by tumor-associated T cells; however, a highly specific CD8 þ T-cell response to the mutation hydroxysteroid dehydrogenase-like protein 1 (HSDL1) L25V was detected in one patient. In the primary tumor, the HSDL1 L25V mutation had low prevalence and expression, and a corresponding T-cell response was undetectable. At first recurrence, there was a striking increase in the abundance of the mutation and corresponding MHC class I epitope, and this was accompanied by the emergence of the HSDL1 L25V -specific CD8 þ T-cell response. At second recurrence, the HSDL1 L25V mutation and epitope continued to be expressed; however, the corresponding T-cell response was no longer detectable. Conclusion:The immune system can respond to the evolving ovarian cancer genome. However, the T-cell response detected here was rare, was transient, and ultimately failed to prevent disease progression. These findings reveal the limitations of spontaneous tumor immunity in the setting of standard treatments and suggest a high degree of ignorance of tumor mutations that could potentially be reversed by immunotherapy.
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