Arginase activity is increased by thrombin: a mechanism for endothelial dysfunction in arterial thrombosis.

BACKGROUND: Earlier observations implicate arterial thrombosis causing endothelial dysfunction by decreasing nitric oxide (NO) levels. NO levels are restored by regional L-arginine supplementation in animal models. The purpose of this study was to investigate the roles of thrombus components in NO generation.

STUDY DESIGN: Human umbilical vein endothelial cells were harvested and cultured. The thrombus components thrombin, thrombin receptor agonist peptide (TRAP), and fibrin were added to a media of confluent human umbilical vein endothelial cells. Endothelial nitric oxide synthase (eNOS) activity was assayed by measuring conversion of L-arginine to L-citrulline. Endothelial NOS mRNA levels were quantitated using real-time polymerase chain reaction. Cellular membrane transport of L-arginine through the y+ channel was assayed with (14)C-labeled L-arginine. Arginase activity was determined as the conversion of (14)C L-arginine to (14)C urea and trapped as Na(2)(14)CO(3) for scintillation counting. Arginase protein amounts were assessed using Western blotting.

RESULTS: Endothelial cells exposed to thrombin for 4 hours led to increased arginase activity. Thrombin (10 U/mL) caused a 1.6-fold increase compared with that in controls (320+/-29 microM urea/min versus 194+/-10 microM urea/min, p=0.03), and thrombin (30 U/mL) increased arginase activity 2.1-fold (398+/-27 microM urea/min, p < 0.001, versus controls); thrombin at 1 U/mL and fibrin had no effect. TRAP (50 microM) had an effect similar to that of thrombin 10 U/mL (316+/-21 microM urea/min, p < 0.01, versus controls). Protein amounts of arginase corresponded with activity levels. Neither eNOS nor inducible nitric oxide synthase (iNOS) activities were affected by exposure to thrombin and TRAP for 4 hours. Similarly, quantification of eNOS, iNOS, and endothelin-1 mRNA did not change, although CL-100, a known thrombin-inducible gene, was upregulated. Finally, transport of L-arginine into endothelial cells was unaffected by thrombin, TRAP, and fibrin exposure.

CONCLUSIONS: Endothelial cells exposed to thrombin have increased arginase enzymatic activity, and the remainder of NO generation capability is unaffected. L-arginine supplementation or arginase blockade may counteract endothelial dysfunction in the setting of acute arterial thrombosis.