We examined the effect of a Western-type

cholesterol-rich diet on lipid metabolism in the triple NOSs GPCR Compound Library mw null mice (56). The high-cholesterol diet for 3 months significantly increased serum LDL cholesterol levels in all the wild-type and single, double, and triple NOSs genotypes examined as compared with a regular diet. Intriguingly, when compared with the wild-type genotype, the serum LDL cholesterol levels in the high-cholesterol diet were significantly and markedly elevated only in the triple NOSs null genotype, but not in any single or double NOSs null genotypes (Fig. 7A), and this was associated with remarkable atherosclerosis (Fig. 7B) and sudden cardiac death, which occurred mainly in 4-5 months after the high-cholesterol diet. Hepatic LDL receptor expression and hepatic levels of sterol regulatory element-binding protein-2 (SREBP-2) which is a transcriptional factor that controls LDL receptor gene expression (57) were markedly reduced only in the triple NOSs null genotype, accounting for the diet-induced dyslipidemia in the genotype. These results suggest that complete disruption of all NOSs causes severe dyslipidemia, atherosclerosis, and sudden cardiac death in response to a high-fat diet in mice in vivo through the down-regulation of the hepatic LDL receptor, demonstrating

the critical role of NOSs in maintaining lipid homeostasis. Nephrogenic diabetes insipidus is characterized by an inability to concentrate urine despite this website normal or elevated plasma concentrations of an anti-diuretic hormone, vasopressin. The triple NOSs null mice showed prominent polyuria, polydipsia, and blunted renal responsiveness to exogenous vasopressin (Fig. 8) (30). Vasopressin stimulates adenylate cyclase, increases cAMP production, and activates cAMP-dependent protein kinase via V2 receptor Rolziracetam in renal collecting duct principal

cells. Phosphorylation of aquaporin-2 by the kinase in turn leads to translocation of aquaporin-2 from cytoplasmic vesicles to the apical plasma membrane, thereby increasing water permeability and reabsorption. In the kidney of the triple NOSs null mice, reduced vasopressin-induced cAMP production, decreased membranous aquaporin-2 water channel expression, and tubuloglomerular lesion formation (renal tubular apoptosis and regeneration, glomerulosclerosis, and glomerular thrombi) were noted. All of these are consistent with the characteristics of nephrogenic diabetes insipidus, suggesting a crucial role of NOSs in the pathogenesis of nephrogenic diabetes insipidus. Chronic unilateral ureteral obstruction (UUO) is a well-characterized model of experimental obstructive nephropathy, culminating in renal tubular apoptosis, interstitial fibrosis, and glomerulosclerosis (58) and (59). These alterations are also a common feature of a variety of kidney disorders, including chronic kidney disease (CKD) and end-stage renal disease (60).