Abstract
Leucocytes often perform trogocytosis, the process by which cells acquire parts of the plasma membrane from interacting cells. Accumulating evidence indicates that trogocytosis modulates immune responses, but the underlying molecular mechanisms are unclear. Here, using two mouse models of leukemia, we found that cytotoxic lymphocytes perform trogocytosis at high rates with tumor cells. While performing trogocytosis, both Natural Killer and CD8+ T cells acquire the checkpoint receptor PD-1 from leukemia cells. In vitro and in vivo investigation revealed that PD-1 protein found on the surface of Natural Killer cells, rather than being endogenously expressed, was derived entirely from leukemia cells. Mechanistically, SLAM receptors were essential for PD-1 trogocytosis. PD-1 acquired via trogocytosis actively suppressed anti-tumor immunity, as revealed by the positive outcome of PD-1 blockade in PD-1-deficient mice. PD-1 trogocytosis was corroborated in patients with clonal plasma cell disorders, where Natural Killer cells that stained for PD-1 also stained for tumor cell markers. Our results, in addition to shedding light on a previously unappreciated mechanism underlying the presence of PD-1 on Natural Killer and cytotoxic T cells, reveal the immune-regulatory effect of membrane transfer occurring when immune cells contact tumor cells.
Once sentence summary Natural Killer cells are inhibited by PD-1 acquired from the surface of tumor cells via trogocytosis.
Competing Interest Statement
Disclosure of conflicts of interests: MA received monetary compensation from Alloy Therapeutics for consulting. MA is under a contract agreement to perform sponsored research with Actym Therapeutics. Neither consulting nor sponsored research are related to the present article. The other authors have declared that no conflict of interest exists.
Footnotes
We provide new evidence showing that PD-1 transfer to NK cells depends on SLAM receptors. Moreover, we provide new evidence that trogocytosed PD-1 inhibits NK cells in vivo.