Variations in the enzymatic properties of human complement subcomponent C1s by treatment with human plasma kallikrein.

We have investigated the effect of plasma kallikrein digestion upon hydrolytic activities of human C1s. Incubation of C1s (85 kDa) with plasma kallikrein led to progressive cleavages on the heavy chain to yield C1s-K1 (70 kDa) then C1s-K2 (53 kDa). Although these cleavages caused little change in the C2 hydrolytic and esterase activities of C1s, a marked loss in the C4 hydrolytic activity was observed. C1s-K1 and C1s-K2 were purified by DE-52 chromatography and it was found that the proteolysis of C1s into C1s-K1 was accompanied with a decrease in the C4 hydrolytic activity. Although the turnover numbers for the hydrolysis of C4 by C1s-K1 and C1s-K2 were almost the same as that of intact C1s, the Kms for C4 of C1s-K1 and C1s-K2 were found to be increased to 10 times that of intact C1s. This result suggests that the apparent decrease in the C4 hydrolytic activity upon plasma kallikrein digestion of C1s is not due to disruption in the active site but is due to decrease in the affinity between C4 and the C1s derivatives. In support of this assumption, C1s-K1 was found to be devoid of the ability to bind C4b-Sepharose. C1s is capable of forming a dimer through the C1s-binding domain in the N-terminal side of the heavy chain. Although C1s-K1 is still capable of forming a dimer, C1s-K2 fails to form a dimer, suggesting that the N-terminal C1s-binding site is released during cleavage of C1s-K1 into C1s-K2.(ABSTRACT TRUNCATED AT 250 WORDS)