Specific sensitivity of CD43 to neutrophil elastase [see comments]

CD43 (sialophorin, leukosialin), an O-glycosylated and sialylated membrane protein (surface sialomucin) with antiadhesive properties, is thought to protect circulating leukocytes by preventing cell surface interactions. Although it is resistant to several proteases, the granule enzyme elastase was recently implicated in loss of extracellular CD43 regions from incubated neutrophils. Flow cytometry showed that neutrophil CD43 is cleaved by low levels of neutrophil elastase with half-maximal cleavage at 5 micrograms/mL; pancreatic elastase, in contrast, did not cleave CD43. Related neutrophil granule proteases proteinase-3 and cathepsin-G did not cleave CD43 or required greater than 10-fold higher enzyme levels, respectively. The 115-kD CD43 isoform on T-lymphoid cells, which differs in glycosylation from 135-kD neutrophil CD43, was equally sensitive to neutrophil elastase, suggesting that cleavage susceptibility extends to various leukocytes. Enzymatic removal of sialic acid did not facilitate CD43 cleavage by neutrophil elastase, a feature that distinguishes the action of neutrophil elastase from other proteases. Western blots of elastase- treated neutrophils detected an 83-kD CD43 fragment that, together with the released 52-kD fragment and 40-kD subfragment, accounts for the entire molecule and indicates that CD43 is cleaved at two sites only, releasing the distal approximately 40% of the sialomucin region. The specificity of the CD43 cleaving reaction was shown by the insensitivity of other neutrophil and lymphoid surface proteins to elastase levels that deplete CD43. Exceptions were P-selectin glycoprotein ligand-1 on neutrophils, also a surface mucin, and CD16 (Fc gamma RIII), which was previously characterized as elastase sensitive. The sensitivity and specificity of CD43 cleavage by neutrophil elastase, the very high levels of elastase in human neutrophils and its ready release by stimulating conditions suggest important physiologic/pathologic roles for this CD43 cleaving reaction.