Q1 · CROSS-FIELD
Article
Author: Davar, Diwakar ; Cole, Alicia M. ; Deblasio, Richelle N. ; Morgun, Andrey ; Costa, Raquel G. F. ; Prescott, Stephanie ; Rodrigues, Richard R. ; Rose, Amy ; Dubner, Howard M. ; Morrison, Robert M. ; Borhani, Amir A. ; Badger, Jonathan H. ; Trinchieri, Giorgio ; Ding, Quanquan ; Najjar, Yana G. ; Dzutsev, Amiran K. ; Zhang, Shuowen ; McCulloch, John A. ; Belkaid, Yasmine ; Fernandes, Miriam R. ; Kirkwood, John M. ; Pagliano, Ornella ; Chauvin, Joe-Marc ; Wang, Hong ; Menna, Carmine ; Vujkovic-Cvijin, Ivan ; Ernst, Scarlett J. ; Balaji, Ascharya K. ; Vetizou, Marie ; Schwartz, Marc B. ; Zidi, Bochra ; Zarour, Hassane M.
Anti-programmed cell death protein 1 (PD-1) therapy provides long-term clinical benefits to patients with advanced melanoma. The composition of the gut microbiota correlates with anti-PD-1 efficacy in preclinical models and cancer patients. To investigate whether resistance to anti-PD-1 can be overcome by changing the gut microbiota, this clinical trial evaluated the safety and efficacy of responder-derived fecal microbiota transplantation (FMT) together with anti-PD-1 in patients with PD-1-refractory melanoma. This combination was well tolerated, provided clinical benefit in 6 of 15 patients, and induced rapid and durable microbiota perturbation. Responders exhibited increased abundance of taxa that were previously shown to be associated with response to anti-PD-1, increased CD8+ T cell activation, and decreased frequency of interleukin-8-expressing myeloid cells. Responders had distinct proteomic and metabolomic signatures, and transkingdom network analyses confirmed that the gut microbiome regulated these changes. Collectively, our findings show that FMT and anti-PD-1 changed the gut microbiome and reprogrammed the tumor microenvironment to overcome resistance to anti-PD-1 in a subset of PD-1 advanced melanoma.