V Gopalakrishnan, C N Spencer, L Nezi, A Reuben, M C Andrews, T V Karpinets, P A Prieto, D Vicente, K Hoffman, S C Wei, A P Cogdill, L Zhao, C W Hudgens, D S Hutchinson, T Manzo, M Petaccia de Macedo, T Cotechini, T Kumar, W S Chen, S M Reddy, R Szczepaniak Sloane, J Galloway-Pena, H Jiang, P L Chen, E J Shpall, K Rezvani, A M Alousi, R F Chemaly, S Shelburne, L M Vence, P C Okhuysen, V B Jensen, A G Swennes, F McAllister, E Marcelo Riquelme Sanchez, Y Zhang, E Le Chatelier, L Zitvogel, N Pons, J L Austin-Breneman, L E Haydu, E M Burton, J M Gardner, E Sirmans, J Hu, A J Lazar, T Tsujikawa, A Diab, H Tawbi, I C Glitza, W J Hwu, S P Patel, S E Woodman, R N Amaria, M A Davies, J E Gershenwald, P Hwu, J E Lee, J Zhang, L M Coussens, Z A Cooper, P A Futreal, C R Daniel, N J Ajami, J F Petrosino, M T Tetzlaff, P Sharma, J P Allison, R R Jenq, J A Wargo
Preclinical mouse models suggest that the gut microbiome modulates tumor response to checkpoint blockade immunotherapy; however, this has not been well-characterized in human cancer patients. Here we examined the oral and gut microbiome of melanoma patients undergoing anti-programmed cell death 1 protein (PD-1) immunotherapy ( n = 112). Significant differences were observed in the diversity and composition of the patient gut microbiome of responders versus nonresponders. Analysis of patient fecal microbiome samples ( n = 43, 30 responders, 13 nonresponders) showed significantly higher alpha diversity ( P < 0...
January 5, 2018: Science