Production and characterization of human renin antibodies with region-oriented synthetic peptides.

Abstract

Polyclonal and monoclonal antibodies were raised against pure human renin, but nothing was known about the regions against which they were directed. Using a three-dimensional model of mouse submandibular renin, we selected seven peptide sequences as belonging to potential epitopes. The main criteria for their choice were the location of the peptide sequences near the catalytic region and on the surface of the renin molecule and their hydrophilicity. After transposition of the regions to the 340-amino acid sequence of human renin, the seven peptides (corresponding to amino acids 50-60, 63-71, 81-90, 118-126, 162-169, 247-255, and 287-295) were synthesized, coupled to bovine serum albumin, and injected into rabbits. Five of these peptides elicited antibodies, and 50-68% binding of the corresponding iodinated peptide was obtained with a 1:25 dilution of antiserum. The antisera titers ranged from 1:5,000 to 1:100,000 when tested by enzyme-linked immunosorbent assay. The same antisera bound 15-65% of labeled pure human renin at a final dilution of 1:2.5, the highest percentage being obtained with peptide 81-90 antiserum. At a 1:5 dilution, the five antisera inhibited renin activity by 23-68% in human plasma with a high renin activity (40 ng of angiotensin I/h/ml). At a final dilution of 1:50, peptide 81-90 antiserum was still capable of producing 25% inhibition. Purified IgG (0.6 mg) from this antiserum inhibited pure human renin activity by up to about 40%, as measured by its reaction with pure synthetic human tetradecapeptide substrate. Antigenic peptides that mimic a part of the human renin sequence, especially peptide 81-90 representing the "flap" covering the cleft between the two renin lobes, constitute promising tools for the development of a synthetic antirenin vaccine.