Natural Killer (NK) Cell–mediated Cytotoxicity: Differential Use of ?TRAIL and Fas Ligand by Immature and Mature Primary Human NK Cells

Mature natural killer (NK) cells use Ca²⁺-dependent granule exocytosis and release of cytotoxic proteins, Fas ligand (FasL), and membrane-bound or secreted cytokines (tumor necrosis factor [TNF]-α) to induce target cell death. Fas belongs to the TNF receptor family of molecules, containing a conserved intracytoplasmic “death domain” that indirectly activates the caspase enzymatic cascade and ultimately apoptotic mechanisms in numerous cell types. Two additional members of this family, DR4 and DR5, transduce apoptotic signals upon binding soluble TNF-related apoptosis-inducing ligand (TRAIL) that, like FasL, belongs to the growing TNF family of molecules. Here, we report that TRAIL produced or expressed by different populations of primary human NK cells is functional, and represents a marker of differentiation or activation of these, and possibly other, cytotoxic leukocytes. During differentiation NK cells, sequentially and differentially, use distinct members of the TNF family or granule exocytosis to mediate target cell death. Phenotypically immature CD161⁺/CD56⁻ NK cells mediate TRAIL-dependent but not FasL- or granule release–dependent cytotoxicity, whereas mature CD56⁺ NK cells mediate the latter two.