Abstract

Background: Elevation of the endogenous inhibitor of nitric oxide synthase asymmetric dimethylarginine (ADMA) has been shown to be associated with increased risk of cardiovascular diseases. There are two major pathways of ADMA catabolism: hydrolysis to citrulline by dimethylarginine dimethylaminohydrolases (DDAH) and transamination by alanine-glyoxylate aminotransferase 2 (AGXT2) with formation of asymmetric dimethylguanidino valeric acid (ADGV). The second pathway is poorly characterized. The goal of the current study was to test the hypothesis that transgenic overexpression of AGXT2 leads to lowering of systemic levels of ADMA and improvement of vasomotor function. Methods and Results: We generated transgenic mice (TG) with ubiquitous overexpression of AGXT2 under control of the chicken beta actin (CAG) promoter. qPCR and Western Blot were used to confirm the ubiquitous expression of the transgene. There were no developmental or phenotypic changes in the TG animals. Biochemical data were generated using HPLC-MS/MS. ADMA plasma levels were decreased by 15% (p<0.05) in the TG mice, whereas ADGV plasma levels were 6 times higher in comparison with wild-types littermates (p<0.001). Lung and heart of TG animals exhibited 2 times lower tissue ADMA content in comparison with controls (p<0.05). TG mice demonstrated improved endothelium-dependent vasodilation (in response to acetylcholine) in aortic rings. The endothelium-independent relaxation (in response to sodium nitroprusside) was unchanged. There was no difference in mean arterial blood pressure measured by telemetry between the wild type and AGXT2 TG mice. In further experiments, we crossed the AGXT2 TG mice with DDAH1 KO mice and showed that upregulation of AGXT2 protects DDAH1 KO mice from elevation of plasma ADMA levels. Conclusion: In the current study we demonstrated that upregulation of AGXT2 leads to lowering of ADMA levels and improvement of endothelium-dependent relaxation in vivo. AGXT2 thereby may be a potential drug target for long-term reduction of systemic ADMA levels in cardiovascular pathologies. This is especially important, because all the efforts to develop pharmacological ADMA-lowering interventions by means of upregulation of DDAH have not been successful so far.

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