The effect of phosphorylation and site-specific mutations in the immunodominant epitope of the human ribosomal P proteins

The immunodominant epitope recognized by lupus antiribosomal P protein antibodies (anti-P antibodies) is located within the 11 C-terminal residues common to the three P proteins. This epitope contains a potential phosphorylation site for casein kinase II and clusters of acidic and hydrophobic amino acids. To determine the role of each of these features in antigen recognition, lupus anti-P sera were tested for binding to phospho- and dephospho- forms of the P proteins and to synthetic peptide antigens in which site-specific modifications had been introduced. Immunoblot analysis revealed that anti-P antibodies specific for the phospho- form of the P proteins represented only a minor population of anti-P antibodies and, in many cases, were absent altogether. In contrast, when charged substitutions were introduced into either the acidic or hydrophobic clusters and tested by ELISA, striking reductions of 64-86% were observed. Conservative Gly-->Pro substitutions also produced a 73% average reduction in anti-P binding whereas substitution of either Ser-105 or the C-terminal Asp-115 resulted in a < 35% reduction in binding. These findings suggest that phosphorylation of the P proteins does not play a role in antibody recognition but that anti-P antibodies require both the acidic and hydrophobic clusters for optimal binding to synthetic peptide antigens. The remarkable degree of specificity demonstrated by these antibodies supports the view that anti-P autoantibodies result from a highly specific (at the B cell level) immune response to self antigen.