Isolation of the C1r sub-unit of the first complement component (C1), avoiding low pH values

On the interaction of the first complement component C1 and its subunit C1q with solid-phase IgM immune complexes

The interaction of C1 and C1q with solid-phase anti-dextran MOPC-104E IgM was studied. An enzyme-linked immunosorbent assay (ELISA) was used to detect bound C1q. The results revealed that immobilized IgM is converted to the functionally active 'staple' conformation by the specific polyvalent ligand dextran (B 1355/S). C1q is fixed to IgM dependent on the antigen concentration, and its binding might be explained by assuming a functional binding constant (K) of approximately 10(9) M-1. Molecules bound with a K in the range of 10(7) M-1 cannot be detected by this ELISA procedure. The fixation of C1q saturated with an excess of the C1r2S2-tetramer differs from that of free C1q. C1q incorporated in the C1 complex rapidly dissociates independently of the antigen concentration. Since the complement binding sites are located at definite positions on the IgM molecule because of its pentameric structure, it is suggested that the distinguishable association properties of C1 and C1q are brought about from the altered flexibility of the C1q molecule complexed with C1r2S2.

A rapid and efficient method for the purification of the complement subcomponents C1r and C1s in zymogen form using fast protein chromatography

The purification of the subcomponents C1r and C1s of the first component of complement involves multiple steps and is time-consuming. This accounts for the frequently observed partial activation of the subcomponents. In this report we propose a simplified procedure of purification using a batch method and fast protein chromatography avoiding a shift of pH. The method provides C1r and C1s in a yield of 35 and 60% respectively. In addition, this study provides a simple and sensitive test to assess functional purity of C1r and C1s with respect to the other C1 subcomponents.