Abstract

2 Background: Tremendous advances have been made in cancer therapy through the use of immune checkpoint blockade, although responses are not always durable. There is a growing appreciation of the role of the microbiome in cancer-related outcomes and recent evidence in murine models suggests that modulation of the gut microbiome may enhance responses to immune checkpoint blockade in melanoma. However this has not been investigated in patients. Here, we demonstrate that differential bacterial “signatures” exist in the gut microbiome of responders (R) and non-responders (NR) to anti-PD1 therapy at baseline, and that insights gained could be used to derive actionable strategies to enhance responses. Methods: We collected oral (n = 222) and gut microbiome (n = 113) samples on a large cohort of patients with metastatic melanoma (n = 228), with a majority treated with anti-PD1 therapy (n = 110). Patients were classified as either R or NR based on RECIST criteria, and 16S rRNA gene sequencing was performed to characterize the diversity and composition of the microbiomes. Immune profiling (via 7-marker IHC panel of CD3, CD8, PD-1, PD-L1, Granzyme B, RORγT and FoxP3) was performed in available tumors at baseline. Results: In these studies, we observed significant differences in the diversity and composition of the gut microbiome in R versus NR to PD1 blockade at baseline, but no clear differences in oral microbiomes. Specifically, R had a significantly higher alpha diversity compared to NR (p = 0.017). Notable differences were also seen in the composition of the gut microbiome of R versus NR. Immune profiling demonstrated significantly increased immune infiltrates in baseline tumor samples of R, with a positive correlation between CD8, CD3, PD1 and FoxP3 T-cell density and abundance of specific bacteria enriched in R (e.g. Faecalibacterium). Conclusions: Differences exist in the diversity and composition of the gut microbiome in R vs NR to anti-PD1 therapy. These results have far-reaching implications and suggest that modifications to the gut microbiome could potentially enhance therapeutic responses to immune checkpoint blockade.

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