Isolation of the terminal complement complex from target sheep erythrocyte membranes.

(1) Membranes from sheep erythrocytes lysed with antibody and human complement were solubilized in Triton X-100 and subjected to isoelectric focusing in polyacrylamide gels containing 1% Triton X-100. Membrane-bound serum proteins were located in the gels by subsequent immunoelectrophoresis against antisera to human serum proteins. Monospecific antisera against C9 and C5 were used to locate the terminal complement complex, which is not dissociated by Triton X-100. The complex focused between pH 5.8 and pH 6.5 and was separated from the bulk of other membrane-bound serum proteins, which focused at pH ranges below than 6.0. (2) In a second step, proteins electrophoretically eluted from the gel sections containing the terminal complement complex were chromatographed on Sepharose 6B equilibrated with 0.05% Triton X-100. Fused rocket immunoelectrophoresis was used to monitor separations. This step separated the terminal complement complex from the remaining contaminating proteins. The complex eluted in a broad peak corresponding to a molecular weight range of 800000-4000000. (3) The terminal complement complex thus obtained migrated with alpha-mobility and yielded a single precipitation arc in crossed immunoelectrophoresis using polyvalent antisera to human serum proteins. A distinct precipitate was obtained with monospecific anti-C9. The presence of C5 and C6, in complex with one another and with C9 was demonstrable by immuno-double-diffusion. No immunoprecipitate was obtained with antisera to sheep erythrocyte membrane proteins. (4) Dodecyl sulfate gel electrophoresis of the complex revealed seven protein bands of 190000, 160000, 115000, 93000, 85000, 68000 and 60000 daltons. Planimetric quantitation of densitometric scans gave a molar ratio of approx. 0.7:0.3:1:1:1:2:1 for these bands, respectively. All bands stained faintly with periodate-Schiff. Two-dimensional dodecyl sulfate gel electrophoresis showed that the first two bands (190000 and 160000 daltons, probably C5b and C5c) represented proteins possessing more than one peptide chain linked by disulfide bonds. The main subunit for both bands was a protein of approximately 68000 daltons. Band 5 (83000 daltons, probably C8alpha) was split into two peptide chains of approximately 68000 and 15000 daltons. The other components were not affected by dithiothreitol treatment. (5) The dodecyl sulfate gel electrophoretograms obtained were very similar to that described by Kolb and Müller-Eberhard (Kolb, W.P. and Müller-Eberhard, H.J. (1975) J. Exp. Med. 141, 724-735) for the terminal complement complex isolated from inulin-activated serum. However, certain minor but consistent deviations were observed. A preliminary correction of the electrophoretograms is presented.