Abstract
Covalent attachment of the complement (C) protein C3b to polysaccharides on biologic particles which activate the alternative pathway leads to changes in the affinity of C3b for factor H, a regulatory protein of the C system. In this study the size of the site with which the polysaccharides interact and its special relationship to the thioester site were investigated using a fluorimetric assay and soluble C3b attached to low m.w. polysaccharides. Oligomers of alpha 1-6 and alpha 1-4 polyglucose and beta 1-2 polyfructose were prepared and attached to C3b at the thioester site. C3b bound to monomeric, dimeric, or trimeric sugars exhibited the same interaction with factor H as free C3b, i.e., there was no effect due to attachment alone. Beginning with tetrameric oligosaccharides a linear decrease in factor H binding was observed with increasing oligosaccharide size and the effect reached an apparent maximum with large polysaccharides. Maximum inhibition of factor H function was estimated to occur at a length of 16 saccharide units. The results suggest that this site, which regulates the inactivation rate of surface-bound C3b and thus the activation of the alternative pathway of C, spans a maximum of 13 sugar units (less than 65 A) starting four units (approximately 15 A) from the thioester site in C3b.