Immune checkpoint blockade induces gut microbiota translocation that augments extraintestinal antitumor immunity.
Yongbin ChoiJake N LichtermanLaura A CoughlinNicole PoulidesWenling LiPriscilla Del ValleSuzette N PalmerShuheng GanJiwoong KimXiaowei ZhanYajing GaoBret M EversLora V HooperChandrashekhar PasareAndrew Y KohPublished in: Science immunology (2023)
Gut microbiota, specifically gut bacteria, are critical for effective immune checkpoint blockade therapy (ICT) for cancer. The mechanisms by which gut microbiota augment extraintestinal anticancer immune responses, however, are largely unknown. Here, we find that ICT induces the translocation of specific endogenous gut bacteria into secondary lymphoid organs and subcutaneous melanoma tumors. Mechanistically, ICT induces lymph node remodeling and dendritic cell (DC) activation, which facilitates the translocation of a selective subset of gut bacteria to extraintestinal tissues to promote optimal antitumor T cell responses in both the tumor-draining lymph nodes (TDLNs) and the primary tumor. Antibiotic treatment results in decreased gut microbiota translocation into mesenteric lymph nodes (MLNs) and TDLNs, diminished DC and effector CD8 + T cell responses, and attenuated responses to ICT. Our findings illuminate a key mechanism by which gut microbiota promote extraintestinal anticancer immunity.