Differential sensitivity of resting and IL-2 activated NK cells to R-verapamil

Natural killer (NK) cells are the first lymphoid population to reconstitute the peripheral blood compartment of immunologically compromised bone marrow transplant (BMT) recipients. Recent data suggest that, among patients transplanted for leukemia, NK cells can prevent or delay disease relapse by mediating a cytotoxic graft vs leukemia (GvL) response. Although the major mechanism by which NK cells mediate target cell lysis involves degranulation and release of cytolytic effector molecules (granzymes, proteoglycans, perforin), accumulating evidence suggests that NK cells possess additional pathways to mediate target cell killing. In fact, it is well recognized that recombinant cytokines such as IL-2 enhance the in vitro cytolytic activity of NK cells. In this study, we observed that the lytic activity mediated by resting and IL-2 activated NK cells against the same target cell appears to occur via two distinct pathways, as distinguished by their differential response to R-verapamil. Specifically, we observed that 25 mu M R-verapamil inhibited the lytic activity of resting NK cells against K562 targets by approximately 50%. However, the lytic activity of IL-2 activated NK cells was unaffected by this concentration of R-verapamil. Additional studies suggested that the inhibitory effect of R-verapamil on NK cytotoxic activity was associated with its ability to prevent degranulation of cytotoxic granules. Specifically, R-verapamil inhibited BLT esterase release from resting but not IL-2 activated NK cells. These data suggest that IL-2 activated NK cells can promote target cell lysis by a pathway (possibly degranulation independent) distinct from that used by resting NK cells. We speculate that the target of R-verapamil on resting Mt cells is P-glycoprotein (Pgp), an ABC transporter that we recently reported was expressed on NK cells and whose functional activity is known to be inhibited by R-verapamil.