Substitution of two amino acids confers C3b binding to the C4b binding site of CR1 (CD35). Analysis based on ligand binding by chimpanzee erythrocyte complement receptor.

The chimpanzee (Ch) E complement receptor type 1 (CR177) appears to be an alternatively spliced product of the Ch CR1 gene transcript. Its cDNA-derived amino acid sequence contains complement protein-repeating modules (CP) 1-6, 28, 29, and 30 in tandem and is 98.8% homologous to the corresponding regions of human (Hu) CR1. It differs from the C4b binding site of Hu CR1 only by two amino acids, Tyr for Ser37 in CP 1 and Asp for Gly79 in CP 2. However, in addition to binding C4b, Ch E binds C3b. As homologous substitution of one of these amino acids (Tyr for Ser37) was previously shown to not confer C3b binding, we reasoned that either single substitution of the other amino acid or a combination of the two amino acid changes would be required for C3b binding. To test this, using a truncated form of Hu CR1 that has a binding site only for C4b, we made these additional constructs. Single substitution of either amino acid did not affect the ligand binding or cofactor activity. However, the double substitution induced C3b binding and increased cofactor activity for C3b without changing the C4b-binding property. Of interest, these two amino acids are also found in the homologous positions of CP 9 and 16, which form part of the C3b binding site of Hu CR1. Thus, Ch E CR177, one-third of the size and with only a single ligand binding site, by acquiring key amino acid substitutions, binds C3b and C4b and functions analogous to Hu E CR1.