Purified plasma factor XIIa aggregates human neutrophils and causes degranulation

YT Wachtfogel, RA Pixley, U Kucich, W Abrams… - 1986 - ashpublications.org
YT Wachtfogel, RA Pixley, U Kucich, W Abrams, G Weinbaum, M Schapira, RW Colman
1986ashpublications.org
Plasma kallikrein has been shown to aggregate human neutrophils and release human
neutrophil elastase. However, neutrophils resuspended in factor XII-deficient plasma
released only 30% of the elastase compared with normal plasma. Isolated human
neutrophils were aggregated in a concentration-dependent fashion by 0.06 to 0.6 U/mL
factor XIIa (0.022 to 0.22 mumol/L). Factor XIIa (0.1 to 1.0 U/mL) also induced neutrophil
degranulation as evidenced by a concentration-dependent release of the specific granule …
Abstract
Plasma kallikrein has been shown to aggregate human neutrophils and release human neutrophil elastase. However, neutrophils resuspended in factor XII-deficient plasma released only 30% of the elastase compared with normal plasma. Isolated human neutrophils were aggregated in a concentration-dependent fashion by 0.06 to 0.6 U/mL factor XIIa (0.022 to 0.22 mumol/L). Factor XIIa (0.1 to 1.0 U/mL) also induced neutrophil degranulation as evidenced by a concentration-dependent release of the specific granule protein, lactoferrin, and azurophilic granule protease, elastase. The release of neutrophil elastase was biphasic, reaching 40% of maximum at 15 seconds with maximal release by 90 minutes. The active site of factor XIIa was required, since the synthetic inhibitor, D-Pro-Phe-Arg-CH2Cl, which reacts with an essential histidine, and the natural plasma inhibitor, Cl-inhibitor, which interacts with the critical serine, both inhibit by more than 90% the release of elastase. The heavy chain is also required, since factor XII fragments failed to aggregate neutrophils or stimulate degranulation. Factor XIIa (0.6 U/mL) can completely correct the defect in elastase release evident in factor XII-deficient plasma. These studies demonstrate that factor XIIa, at concentrations potentially obtainable in plasma in disease states, can activate neutrophils, and thus may participate in the inflammatory response.
ashpublications.org