In this study, we present evidence that CD44 is a cytotoxic triggering molecule on freshly isolated polymorphonuclear cells (PMN). PMN constitutively express high levels of CD44 as determined by FACS analysis, and immunoprecipitation studies using PMN lysates and an anti-CD44 mAb show a band of 80 to 90 kDa that migrates slightly faster than CD44 from PBL. A bispecific Ab consisting of anti-CD44 Fab cross-linked to anti-DNP Fab (anti-CD44(Fab) x anti-DNP(Fab)) induces PMN to lyse DNP-coated tumor cells in an 18-h assay, and this lysis is specifically inhibited by a polyclonal anti-CD44 F(ab')2. A second bispecific Ab, anti-CD16(Fab) x anti-DNP(Fab), that binds to Fc(gamma)RIIIb on PMN does not induce lysis, indicating that the bridging of target cells to PMN per se is not sufficient for killing. Moreover, CD44-directed killing by PMN results in the lysis of bystander cells, suggesting that the mechanisms of tumor cytolysis by CD44-targeted PMN does not require cell-cell contact. Lastly, PMN lyse target cells coated with hyaluronic acid (HA), the principal ligand for CD44, and this cytolytic activity is specifically blocked by the polyclonal anti-CD44 F(ab')2 and by an anti-CD44 mAb. We suggest that the interaction of HA with CD44 on neutrophils might initiate cytotoxic or inflammatory responses in vivo when neutrophils encounter high amounts of HA, for example on tumor cells, or in the extracellular matrix.