Background— Endogenous arginine homologues, including homoarginine, have been identified as novel biomarkers for cardiovascular disease and outcomes. Our studies of human cohorts and a confirmatory murine model associated the arginine homologue homoarginine and its metabolism with stroke pathology and outcome. Methods and Results— Increasing homoarginine levels were independently associated with a reduction in all-cause mortality in patients with ischemic stroke (7.4 years of follow-up; hazard ratio for 1-SD homoarginine, 0.79 [95% confidence interval, 0.64–0.96]; P =0.019; n=389). Homoarginine was also independently associated with the National Institutes of Health Stroke Scale+age score and 30-day mortality after ischemic stroke ( P <0.05; n=137). A genome-wide association study revealed that plasma homoarginine was strongly associated with single nucleotide polymorphisms in the l -arginine:glycine amidinotransferase ( AGAT ) gene ( P <2.1×10 −8 ; n=2806), and increased AGAT expression in a cell model was associated with increased homoarginine. Next, we used 2 genetic murine models to investigate the link between plasma homoarginine and outcome after experimental ischemic stroke: (1) an AGAT deletion (AGAT −/− ) and (2) a guanidinoacetate N -methyltransferase deletion (GAMT −/− ) causing AGAT upregulation. As suggested by the genome-wide association study, homoarginine was absent in AGAT −/− mice and increased in GAMT −/− mice. Cerebral damage and neurological deficits in experimental stroke were increased in AGAT −/− mice and attenuated by homoarginine supplementation, whereas infarct size in GAMT −/− mice was decreased compared with controls. Conclusions— Low homoarginine appears to be related to poor outcome after ischemic stroke. Further validation in future trials may lead to therapeutic adjustments of homoarginine metabolism that alleviate stroke and other vascular disorders.
Background-Asymmetrical methylarginines inhibit NO synthase activity and thereby decrease NO production.Dimethylarginine dimethylaminohydrolase 1 (DDAH1) degrades asymmetrical methylarginines. We previously demonstrated that in the heart DDAH1 is predominantly expressed in vascular endothelial cells. Because an earlier study showed that mice with global DDAH1 deficiency experienced embryonic lethality, we speculated that a mouse strain with selective vascular endothelial DDAH1 deficiency (endo-DDAH1 Ϫ/Ϫ ) would largely abolish tissue DDAH1 expression in many tissues but possibly avoid embryonic lethality. Methods and Results-By using the LoxP/Cre approach, we generated the endo-DDAH1Ϫ/Ϫ mice. The endo-DDAH1
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