Species specificity of recognition by the alternative pathway of complement.

Abstract

The recognition function of the alternative complement pathway was studied with isolated human and rabbit components. Zymosan and homologous and heterologous erythrocytes were used as representative activators or nonactivators. The binding affinity of Factor B and Factor H for particle-bound C3b was measured. In both species, the average affinity of Factor H for bound C3b on homologous cells (nonactivators) was eight to 10 times higher than on zymosan particles (activators). The interaction between Factor H and C3b on rabbit erythrocytes was species-specific: rabbit Factor H bound strongly to rabbit C3b on rabbit erythrocytes and also on human erythrocytes, which are nonactivators for the rabbit alternative pathway. Human Factor H bound strongly to human C3b on human erythrocytes but seven times weaker on rabbit erythrocytes, which are activators of the human alternative pathway. No substantial differences were found in the binding of Factor B to bound C3b regardless of the nature of the particle to which C3b was bound. The results indicate that in the two species studied, the molecular mechanism of recognition is analogous and that recognition is species-specific.