Abstract EN:

Natural Killer (NK) and CD8+ T cells, respectively of the innate and adaptive immune System, can both participate in tumor cell lysis through the exocytosis of lytic granules during interactions with their targets. However, while CD8+ T cells are specific for given tumor antigens, NK cells more broadly recognize stress through receptors such as NKG2D, whose ligands are expressed upon cellular stress. To understand how NKG2D receptor engagement influences intratumoral NK cell dynamics, we performed intravital two-photon imaging on solid EL4 tumors expressing the ligand Rae-lp. Expression of this ligand induced a sharp increase in intratumoral NK cell density and motility, whereas only a few immotile NK cells could be observed within a control EL4 tumor. Strinkingly, most NK cells established transient contacts with EL4 Rae-ß tumor cells, while CD8+ T cells interactions with related tumor cells expressing a recognized antigen were stable and long-lasting. We also performed in vitro conjugation experiments to characterize the underlying mechanism of NK and CD8+ T cell behavior and found that while NK cells can eliminate their targets efficiently, their adhesion to targets and the calcium influx during this process were limited. On the other hand, T cell conjugation to a tumor cell expressing a specific antigen induced a robust calcium influx that was critical for the strong adhesion. Altogether, we demonstrate here that while NK and CD8+ T cells use the same molecular effectors during cytotoxicity, they do so with remarkably distinct dynamics. These different behaviors might open the way to immunotherapeutic strategies exploiting the potential synergy of these two cell types.