Immunoprecipitates of human C4 from EDTA-plasma were incubated with [14C]methylamine and analyzed by sodium dodecyl sulfate (SDS)-polyacrylamide gel electrophoresis and fluorography. In addition to finding label in the alpha-chains of the secreted (C4s) and predominant plasma (C4p) forms of C4, two additional molecules with apparent molecular weights of approximately 168,000 (p168) and approximately 125,000 (p125) covalently incorporated methylamine, indicating the presence of an internal thioester bond. These two molecules were present at a concentration of approximately 5% of total plasma C4 and were not immunoprecipitated by antisera to C3 or alpha 2-macroglobulin. A human hepatoma-derived cell line (HepG2), in addition to synthesizing C4s and small quantities of the polypeptide precursor of C4 (pro-C4), was found to secrete p168 and p125 at concentrations of 14 +/- 4.8 and 21 +/- 9.2% (mean +/- SD), respectively, of total secreted C4. These molecules were not found intracellularly. Both molecules were present on reduced, but not nonreduced, SDS-polyacrylamide gels. Chido (C4B) and Rodgers' (C4A) alloantisera precipitated the C4A and C4B variants of pro-C4, p168, p125, and C4s. Both tryptic and Staphylococcus aureus V8 protease peptide analyses showed homology between p168 and the beta- and alpha-chains and between p125 and the alpha- and gamma-chains. Partial NH2-terminal sequencing revealed that the beta-chain was NH2-terminal in p168 and that the alpha-chain was NH2-terminal in p125. Taken together, these data indicate that p168 and p125 represent uncleaved beta-alpha- and alpha-gamma-fragments of pro-C4, respectively. Thus, in most individuals, plasma C4 consists of five structurally distinct molecules, the single polypeptide precursor (pro-C4), the three-subunit secreted (C4s) and predominant plasma (C4p) forms of C4, and two incompletely processed two-subunit molecules with uncleaved beta-alpha- (p168) or uncleaved alpha-gamma (p125)-subunits. In addition, all five molecules are observed for both C4A (Rodgers) and C4B (Chido) structural genes.
A C Chan, J P Atkinson
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