Existence of Different but Overlapping IgG- and IgM-Binding Sites on the Globular Domain of Human C1q

Abstract

C1q is the first subcomponent of the classical complement pathway that binds antigen-bound IgG or IgM and initiates complement activation via association of serine proteases C1r and C1s. The globular domain of C1q (gC1q), which is the ligand-recognition domain, is a heterotrimeric structure composed of the C-terminal regions of A (ghA), B (ghB), and C (ghC) chains. The expression and functional characterization of ghA, ghB, and ghC modules have revealed that each chain has some structural and functional autonomy. Although a number of studies have tried to identify IgG-binding sites on the gC1q domain, no such attempt has been made to localize IgM-binding site. On the basis of the information available via the gC1q crystal structure, molecular modeling, mutational studies, and bioinformatics, we have generated a series of substitution mutants of ghA, ghB, and ghC and examined their interactions with IgM. The comparative analysis of IgM- and IgG-binding abilities of the mutants suggests that the IgG- and IgM-binding sites within the gC1q domain are different but may overlap. Whereas Arg^B108, Arg ^B109, and Tyr^B175 mainly constitute the IgM-binding site, the residues Arg^B114, Arg^B129, Arg^B163, and His^B117 that have been shown to be central to IgG binding are not important for the C1q−IgM interaction. Given the location of Arg^B108, Arg ^B109, and Tyr^B175 in the gC1q crystal structure, it is likely that C1q interacts with IgM via the top of the gC1q domain.