Asymmetric dimethylarginine (ADMA), an endogenous nitric oxide synthase inhibitor, is mainly degraded by dimethylarginine dimethylaminohydrolase (DDAH). It was recently reported that reduced DDAH expression could contribute to ADMA accumulation and subsequent elevation of BP in an experimental model of chronic kidney disease (CKD). ADMA is a strong predictor of the progression of CKD as well. However, a role for the ADMA-DDAH in the pathogenesis of CKD remains to be elucidated. This study investigated the effects of DDAH-elicited ADMA lowering on renal function and pathology in a rat remnant kidney model. Four weeks after five-sixths subtotal nephrectomy (Nx), the rats were given tail-vein injections of recombinant adenovirus vector encoding DDAH-I (Adv-DDAH) or control vector expressing bacterial -galactosidase The synthesis of NO can be blocked by inhibition of the NOS active site with guanidino-substituted analogues of l-arginine, such as asymmetric dimethylarginine (ADMA) (1,2). We, along with others, have demonstrated that elevated plasma ADMA is associated with cardiovascular risk factors such as hypertension (3,4), diabetes (4,5), and chronic kidney disease (CKD) (6,7), thereby being one of the useful biomarkers for atherosclerosis and future cardiovascular events (5,7-9). ADMA is mainly metabolized by an enzyme dimethylarginine dimethylaminohydrolase (DDAH) (1,2). We recently found that reduced DDAH expression could contribute to ADMA accumulation and subsequent elevation of BP in an experimental model of CKD (10). Furthermore, plasma level of ADMA is known to be a strong predictor of the progression of renal dysfunction in patients with CKD (11,12). According to the recent comprehensive review on the potential role of ADMA in renal disease progression (13), there may be two major possible mechanisms by which ADMA could contribute to the progression of CKD; one is a BP-dependent effect of ADMA described previously (4,10), and the other is a BP-independent, direct effect of ADMA on renal microvasculature. As to the latter, Kang et al. (14) demonstrated that administration of an inhibitor of NOS accelerated renal injury and impaired angiogenic response and peritubular capillary formation in the remnant kidney model, whose harmful effects were greater than expected from the increase in BP levels, thus suggesting that an important role of NO in maintaining renal microvasculature (15,16). Therefore, it is plausible that DDAH could protect against renal damage by suppressing the inhibitory effect of ADMA on NO generation. In this study, we investigated the effects of DDAH-elicited ADMA lowering on renal function and tubulointerstitial changes in a rat remnant kidney model. To address the issue of whether DDAH could protect against renal injury in a BPindependent manner, we compared the renoprotective effects of DDAH with those of hydralazine (Hyz), an antihypertensive drug with equihypotensive property.
