Fine mapping of the high molecular weight kininogen binding site on blood coagulation factor XI through the use of rationally designed synthetic analogs.

Using immunological and chemical cleavage techniques, we have previously identified a domain contained within residues Phe56-Ser86 in the first tandem repeat (A1) of the heavy chain of factor XI which binds high Mr kininogen (Baglia, F. A., Jameson, B. A., and Walsh, P. N. (1990) J. Biol. Chem. 265, 4149-4154). We have now chemically synthesized peptides from corresponding homologous regions in the second (A2), third (A3), and fourth (A4) tandem repeats of the heavy chain (A2: Asn145-Ala176; A3: Asn235-Arg266; and A4: Gly326-Lys357). These peptides had no effect on the binding of factor XI to high Mr kininogen. Because of a lack of detailed structural information for the A1 domain, a molecular model of this region was constructed. This hypothetical model made distinct and testable predictions regarding potential surfaces and concomitant secondary structure. Specifically, the resulting structure depicted two juxtaposed beta-stranded stem-loops that, in conjunction with biological information, constitute a candidate surface for contact with high Mr kininogen. The hypothetical A1 model was, consequently, used as a predictive template in the rational design of two synthetic peptides (Val59-Arg70 and Asn72-Lys83). When both these peptides were added together and the binding of factor XI to high Mr kininogen was examined, a synergistic inhibitory effect was observed compared with each peptide added individually. Our data are consistent with the notion that the sequence of amino acids from Val59-Lys83 of the heavy chain of factor XI contains two antiparallel beta-strands connected by beta-turns that together comprise a continuous surface utilized for the binding of high Mr kininogen.