In vitro gamma-carboxylation of a 59-residue recombinant peptide including the propeptide and the gamma-carboxyglutamic acid domain of coagulation factor IX. Effect of mutations near the propeptide cleavage site.

We report the expression in Escherichia coli of a fusion protein that contains the propeptide sequence and gamma-carboxyglutamic acid domain (residues -18 to 41) of human factor IX (FIXGla). CNBr was used to release FIXGla from the fusion protein. The 59-amino acid peptide is an efficient substrate for in vitro gamma-carboxylation. Its Km,app (0.55 microM) is several thousand-fold lower than that of the commonly used substrate FLEEL and about 5 times lower than proPT28 or proFIX28, (Hubbard, B. R., Jacobs, M., Ulrich, M. M. W., Walsh, C., Furie, B., and Furie, B. C. (1989) J. Biol. Chem. 264, 14145-14150). In addition, FIXGla is the first peptide substrate that is carboxylated in vitro to more than one gamma-carboxyglutamic acid/molecule (6-11 gamma-carboxyglutamic acids/molecule). We created peptides with mutations identical to FIXSan Dimas or FIXCambridge as well as a peptide with both mutations in the propeptide sequence and examined the effect of the mutations on in vitro carboxylation. Enzyme kinetic studies revealed no significant difference in Vmax/Km values between normal and mutant substrates. Maximum carbon dioxide incorporation was achieved with the double mutant. From these data we conclude the following. 1) FIXGla and its mutants are excellent substrates for studying the mechanism of gamma-carboxylase. 2) Although arginines at positions -4 and -1 are highly conserved in the propeptide sequence of all the vitamin K-dependent proteins, neither is critical for gamma-carboxylation.