Primary structure of the reactive site of human C1-inhibitor.

Human C1-inhibitor (C1-Inh) forms an equimolar complex with complement proteinase C1s that is resistant to dissociation by sodium dodecyl sulfate. The formation of this stable complex results in the cleavage of a peptide bond near the carboxyl terminus of the inhibitor and, whereas the bulk of C1-Inh remains covalently bound to the light chain of C1s, the postcomplex inhibitor peptide can be isolated under denaturing conditions. We have sequenced the amino-terminal region of this peptide and deduced that it represents the carboxyl-terminal side of the reactive site of C1-Inh. Limited proteolysis of C1-Inh by Crotalus atrox protease results in an active derivative lacking an amino-terminal peptide of 36 residues. Further proteolysis of this derivative with Pseudomonas aeruginosa elastase inactivates the inhibitor and a peptide is released. The amino-terminal sequence of this peptide overlaps with that of the postcomplex peptide and indicates that the residue imparting primary specificity to the inhibitor is arginine.