Abstract
Heparin cofactor II (HCII) is a serpin whose thrombin inhibition activity is accelerated by glycosaminoglycans. We describe the novel properties of a carboxyl-terminal histidine-tagged recombinant HCII (rHCII-CHis(6)). Thrombin inhibition by rHCII-CHis(6) was increased >2-fold at approximately 5 microgram/ml heparin compared with wild-type recombinant HCII (wt-rHCII) at 50-100 microgram/ml heparin. Enhanced activity of rHCII-CHis(6) was reversed by treatment with carboxypeptidase A. We assessed the role of the HCII acidic domain by constructing amino-terminal deletion mutants (Delta1-52, Delta1-68, and Delta1-75) in wt-rHCII and rHCII-CHis(6). Without glycosaminoglycan, unlike wt-rHCII deletion mutants, the rHCII-CHis(6) deletion mutants were less active compared with full-length rHCII-CHis(6). With glycosaminoglycans, Delta1-68 and Delta1-75 rHCIIs were all less active. We assessed the character of the tag by comparing rHCII-CHis(6), rHCII-CAla(6), and rHCII-CLys(6) to wt-rHCII. Only rHCII-CHis(6) had increased activity with heparin, whereas all three mutants have increased heparin binding. We generated a carboxyl-terminal histidine-tagged recombinant antithrombin III to study the tag on another serpin. Interestingly, this mutant antithrombin III had reduced heparin cofactor activity compared with wild-type protein. In a plasma-based assay, the glycosaminoglycan-dependent inhibition of thrombin by rHCII-CHis(6) was significantly greater compared with wt-rHCII. Thus, HCII variants with increased function, such as rHCII-CHis(6), may offer novel reagents for clinical application.
Highlights
Serine protease inhibitors1 are a class of highly conserved proteins whose prototypical member is ␣1-proteinase inhibitor [1, 2]
This paper is available on line at http://www.jbc.org hexahistidine-tagged recombinant heparin cofactor II (HCII) has enhanced progressive antithrombin and heparin cofactor activities and increased heparin-Sepharose binding compared with wild-type recombinant HCII; (b) a region within the amino terminus of HCII may interact with the carboxyl-terminal hexahistidine of rHCII-CHis6; (c) carboxyl-terminal hexahistidine-tagged recombinant antithrombin III does not have these enhanced activities compared with wildtype recombinant ATIII; and (d) the enhanced heparin effect of rHCII-CHis6 is maintained in a plasma-based thrombin inhibition assay
In the presence of heparin, we found the alanine and lysine tags had different effects on the rate of thrombin inhibition compared with rHCII-CHis6 (Fig. 4 and Table III)
Summary
(Received for publication, January 11, 1999, and in revised form, September 9, 1999). This paper is available on line at http://www.jbc.org hexahistidine-tagged recombinant HCII (rHCII-CHis6) has enhanced progressive antithrombin and heparin cofactor activities and increased heparin-Sepharose binding compared with wild-type recombinant HCII (wt-rHCII); (b) a region within the amino terminus of HCII may interact with the carboxyl-terminal hexahistidine of rHCII-CHis; (c) carboxyl-terminal hexahistidine-tagged recombinant antithrombin III (rATIII-CHis6) does not have these enhanced activities compared with wildtype recombinant ATIII (wt-rATIII); and (d) the enhanced heparin effect of rHCII-CHis is maintained in a plasma-based thrombin inhibition assay These data suggest that rHCII-CHis could be a novel anticoagulant therapy
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