Multiple signal messengers generated by terminal complement complexes and their role in terminal complement complex elimination.

Abstract

The best established function of C5b-9 is the ability to lyse or kill cells after assembly in the plasma membrane. In addition to this cytolytic function, increasing evidence suggests that C5b-9 also stimulate a variety of cell functions in vitro. Relatively little is known about the C5b-9 signals responsible for cell activation other than a transient increase in cytosolic Ca2+ primarily due to Ca2+ influx that have been determined in a cell population. In this report, signal messenger generation in Ehrlich cells by the sublytic terminal complement complexes (TCC), C5b-9, C5b-8, and C5b-7, was further examined, as well as the role of signal messengers in stimulating elimination of TCC from the cell surface. Changes in cytosolic Ca2+ were monitored in individual cells after a single dose of C5b-9 by digital imaging fluorescence microscopy that revealed oscillations in cytosolic Ca2+ over a period of 10 min. Sublytic C5b-9 substantially increased protein kinase C (PKC) activity at an external Ca2+ concentration of 1.5 mM. C5b-9-mediated PKC activation could be inhibited by 60 to 80% when external Ca2+ was reduced to 0.015 mM. C5b-8, but not C5b-7, activated PKC to a lesser extent. C5b-8 and C5b-7 also stimulated an increase in cAMP. Rapid elimination of TCC known to be stimulated by Ca2+ signal was partially inhibited by protein kinase inhibitors, H-7 and to a lesser extent by HA1004, suggesting a role for PKC in the elimination response. TCC elimination was not accelerated by agents that increase cAMP.