Dicoumarol-induced 9-γ-carboxyglutamic acid prothrombin: isolation and comparison with the 6-, 7-, 8-, and l0-γ-carboxyglutamic acid isomers

Abstract

The role of gamma-carboxyglutamic acid (Gla) in prothrombin function can be effectively evaluated by characterizing dicoumarol-induced, Gla-deficient prothrombin structural isomers. In addition to the isolation of 8-, 7-, 6-, 5-, 3-, 2-, 1-, and 0-Gla isomers, we have now purified a variant prothrombin containing 9(8.80) Gla residues by barium citrate adsorption, elution, and finally by DEAE-cellulose and immunoaffinity chromatographies. Agar gel electrophoretic mobilities of the 9-Gla isomer and its fragment 1 were slower than those of the respective 10-Gla (normal) prothrombin and fragment 1, both in the absence and presence of Ca(II). In the presence of Ca(II), both 9- and 10-Gla fragments 1 moved slower than 8- and 7-Gla fragments 1. However, in the absence of metal ions, 9- and 7-Gla fragments 1 migrated at the same rate, but slower than 10- and 8-Gla fragments. Similarly, the 9-Gla fragment 1 electrofocused cathodically to 10- and 8-Gla, but comparably with 7-Gla fragment 1. The 9-Gla fragment 1 exhibited a Ca(II)-induced 44% decrease in the intrinsic fluorescence, compared with a 40% decrease in that of 10-Gla; 8-Gla fragment 1 revealed only 23% quenching. Ca(II)-dependent anti-normal prothrombin antibodies are not specific for 10-Gla prothrombin, since only a twofold molar excess of the 9-Gla isomer was required to displace equal amounts of labeled normal prothrombin. The most critical Gla residue for influencing the functional, thrombin-generating properties of prothrombin appears to be the one present in the 9-Gla isomer but absent in the 8-Gla variant, since 9-Gla prothrombin possesses four times the normal coagulant activity (78 versus 20%) of the 8-Gla isomer.