Endothelin receptor subtype B mediates synthesis of nitric oxide by cultured bovine endothelial cells.
Endothelins (ET) produce endothelium-dependent vasodilation through nitric oxide (NO) synthesis. The present study was designed to elucidate the cellular mechanism by which ET induces synthesis and release of endothelium-derived NO by cultured bovine endothelial cells (EC). Binding studies revealed that bovine EC membrane had the binding sites of a novel agonist (BQ3020) for non-isopeptide-selective receptor subtype (ETB). Affinity labeling studies showed a major labeled band with the apparent molecular mass of 50 kD. Northern blot analysis demonstrated the expression of mRNA for ETB receptor. BQ3020 rapidly and dose dependently induced formation of inositol-1,4,5-triphosphate and increased intracellular Ca2+ concentrations in fura-2-loaded cells. Concomitantly, BQ3020 dose dependently stimulated production of both nitrate/nitrite (NOx) and cyclic GMP, a highly significant correlation existed between NOx and cGMP production.The stimulatory effect on NOx and cGMP production by ETB agonist was inhibited by NO synthase inhibitor monomethyl-Larginine; this effect was reversed by coaddition of L-arginine, but not D-arginine. NOx and cGMP production stimulated by BQ3020 was inhibited by pretreatment with pertussis toxin.ETB agonist-induced NOx production was blocked by a calmodulin inhibitor and an intracellular Ca2" chelator, but not by an extracellular Ca2" chelator or a Ca2+ channel blocker. These data suggest that endothelins stimulate ETB receptor-mediated phosphoinositide breakdown via pertussis toxin-sensitive Gprotein(s), which triggers release of intracellular Ca2+, thereby activating Ca2+/calmodulin-dependent NO synthase in EC. (J. Clin. Invest. 1993. 91:1367-1373.) Key words: endothelin * receptor subtype B * nitric oxide -Ca2`/calmodulinendothelial cell
Aquaporin-2 is detectable in the urine, and changes in the urinary excretion of this protein can be used as an index of the action of vasopressin on the kidney.
Type 2 diabetes mellitus (T2DM) is associated with a high incidence of non-alcoholic fatty liver disease (NAFLD) related to obesity and insulin resistance. Currently, medical interventions for NAFLD have focused on diet control and exercise to reduce body weight, and there is a requirement for effective pharmacological therapies. Sodium-glucose cotransporter 2 (SGLT2) inhibitors are oral antidiabetic drugs that promote the urinary excretion of glucose by blocking its reabsorption in renal proximal tubules. SGLT2 inhibitors lower blood glucose independent of insulin action and are expected to reduce body weight because of urinary calorie loss. Here we show that an SGLT2 inhibitor ipragliflozin improves hepatic steatosis in high-fat diet-induced and leptin-deficient (ob/ob) obese mice irrespective of body weight reduction. In the obese mice, ipragliflozin-induced hyperphagia occurred to increase energy intake, attenuating body weight reduction with increased epididymal fat mass. There is an inverse correlation between weights of liver and epididymal fat in ipragliflozin-treated obese mice, suggesting that ipragliflozin treatment promotes normotopic fat accumulation in the epididymal fat and prevents ectopic fat accumulation in the liver. Despite increased adiposity, ipragliflozin ameliorates obesity-associated inflammation and insulin resistance in epididymal fat. Clinically, ipragliflozin improves liver dysfunction in patients with T2DM irrespective of body weight reduction. These findings provide new insight into the effects of SGLT2 inhibitors on energy homeostasis and fat accumulation and indicate their potential therapeutic efficacy in T2DM-associated hepatic steatosis.
Nitric oxide production and inducible nitric oxide synthase expression in inflammatory arthritides.
In this study, we have identified the source of nitric oxide (NO) produced in the human inflammatory joints by analyzing expression of inducible NO synthase. In ex vivo organ cultures, both inflammatory synovium and cartilage from patients with rheumatoid arthritis produced NO. The NO production was suppressed by NG-monomethyl-L-arginine, an inhibitor of NO synthase. The amount of NO produced by the synovium correlated with the proportion of CD14+ cells in the corresponding tissue (r = 0.8, P < 0.05). Immunohistochemical analysis as well as in situ hybridization showed that inducible NO synthase was predominantly expressed in synovial lining cells, endothelial cells, chondrocytes, and to a lesser extent, in infiltrating mononuclear cells and synovial fibroblasts. The synovial lining cells and the infiltrating cells expressing inducible NO synthase were identified where CD14+ cells were located. Together with morphological features, this suggests that they are type A synoviocytes. NO production from freshly isolated synoviocytes and chondrocytes was up-regulated by in vitro stimulation with a combination of IL-TNF-fB, TNF-a, and LPS.In summary, the present results suggest that NO is produced primarily by CD14+ synoviocytes, chondrocytes, and endothelial cells in inflammatory joints of arthritides. NO production can be upregulated by cytokines present in inflamed joints. The increased NO production may thus contribute to the pathological features in inflammatory arthriti-
Release of endothelin-1, a novel potent vasoconstrictor peptide originally isolated from endothelial cells, from cultured bovine endothelial cells has been shown to be stimulated by arginine vasopressin and angiotensin II. To elucidate the cellular mechanism by which endothelin-1 is released by these vasoconstrictors, we tested the effects of several compounds on the agonist-induced endothelin-1 release and studied the changes of cytosolic free Ca peptide with 21-amino acid residues, was originally isolated and sequenced from the supernatant of cultured porcine endothelial cells (ECs).1 ET-1 has not only strong and sustained vasoconstrictive action on a variety of blood vessels from various species 1 -2 but also a wide spectrum of pharmacological effects such as release of eicosanoids and endothelium-derived relaxing factor from perfused vascular beds, 3 aldosterone from cultured calf adrenal zona glomerulosa cells, 4 atrial natriuretic peptide from cultured rat atrial myocytes, 5 and mitogenic action in cultured vascular smooth muscle cells.6 These effects are dependent on extracellular Ca 2+ and inhibited by Ca 2+ channel antagonists, suggesting the importance of Ca 2+ influx in the mechanism of its actions. The induction of preproET-1 messenger RNA (mRNA) in porcine EC is augmented by several agents, such as epinephrine, thrombin, Ca 2+ ionophore, 1 phorbol ester, 8 transforming growth factor (TGF)-/3, 9 cytokines, 10 and shear stress. 11 Our recent studies have shown that two vasoconstrictive hormones, arginine vasopressin (AVP) and angiotensin (Ang) II, also stimulate the release of immunoreactive ET-1 from cultured bovine ECs, and these effects are mimicked by phorbol ester and Ca 2+ ionophore. 12These findings raise the possibility that the AVP-and Ang II-induced ET-1 release from EC may involve a common mechanism (i.e., phosphoinositide breakdown with the resultant mobilization of intracellular Ca 2+ and activation of protein kinase C [PKC]. To address this question, the present study was designed to elucidate the cellular mechanism of AVP and Ang II responsible for ET-1 release in bovine EC. Methods Cell Culture and IncubationECs from bovine carotid artery were prepared by digestion with collagenase and elastase, 13 and culDownloaded from http://ahajournals.org by on April 27, 2019
To elucidate the pathophysiological significance of urinary endothelin-1 (ET-1), we measured urinary excretion of ET-1-like immunoreactivity (L1) in 17 patients with renal disease and 9 normal subjects. Twenty-four hour urinary ET-1-L1 excretion in patients with renal disease (358 +/- 68 ng, mean +/- SE) was significantly (P less than 0.005) greater than that of normal subjects (77 +/- 5 ng). In patients with renal disease. ET-1-L1 clearance (CET) exceeded creatinine clearance (CCR); CET/CCR (305 +/- 81%) was significantly (P less than 0.005) greater than that of normal subjects (43 +/- 13%). The 24-hour urinary excretion of ET-1-L1 in patients with renal disease showed significant correlation with that of N-acetyl-beta-D-glucosaminidase (r = 0.587, P less than 0.05), beta 2-microglobulin (r = 0.614, P less than 0.01) and albumin (r = 0.484, P less than 0.05). Intravenous infusion of saline (500 ml) in seven normal subjects did not affect urinary ET-1 excretion rate. These data suggest that urinary excretion of ET-1 derives mainly from renal tubular secretion at least in patients with renal disease, and that degradation and/or reabsorption of ET-1 at the tubular site may also contribute to the renal handling of ET-1. Therefore, urinary excretion of ET-1 should serve as a potential marker for renal injury.
1. The vascular endothelium produces endothelium-derived relaxing factor (EDRF) or nitric oxide (NO), which exerts vasodilation through cyclic guanosine monophosphate (cGMP) as a second messenger. To determine whether EDRF has any vasodilating and natriuretic action in man, the present study examined the effects of L-arginine (L-Arg), a substrate for NO, on the responses of mean blood pressure (MBP) and heart rate (HR); plasma concentrations of cGMP, atrial natriuretic factor (ANF) and nitrite/nitrate (NOx); urinary excretion of sodium, cGMP and NOx; and urinary flow in eight normal male subjects. These parameters were compared with those following saline infusion in the same subjects. Clearance of para-aminohippuric acid (PAH) and inulin was studied in five normal subjects. 2. Infusion of L-Arg (30 g) caused a significant fall in MBP (-8 mmHg) with a concomitant rise in HR (10 beats/min), while saline infusion had no effects on these parameters. 3. Neither L-Arg nor saline infusion caused appreciable changes in plasma concentrations of ANF or NOx. Plasma cGMP concentrations increased significantly during (1.7-fold) and after (1.9-fold) L-Arg infusion, but only slightly (1.3-fold) during saline infusion. 4. Urine flow increased more remarkably following L-Arg infusion than that following saline infusion. Remarkable increases in urinary excretion of sodium and fractional excretion of sodium were observed after L-Arg infusion compared with those after saline infusion. Natriuresis was associated with enhanced urinary excretion of cGMP and Nox. Urinary Nox excretion showed positive correlations with urinary flow (r = 0.69, P less than 0.001) and with urinary cGMP excretion (r = 0.60, P less than 0.01).(ABSTRACT TRUNCATED AT 250 WORDS)
Induction of nitric oxide synthase by cyclic AMP in rat vascular smooth muscle cells.
By measurements of NO /NO (NOx) production and Northern blot analysis, we studied the effects of a membranepermeable cAMP derivative, 8-bromo-cAMP, on the expression of inducible nitric oxide synthase (iNOS) gene and the synthesis of NOx in cultured rat vascular smooth muscle cells (VSMCs). 8-bromo-cAMP stimulated NOx production and increased steady-state levels of iNOS mRNA in rat VSMC in a time-and dose-dependent manner. NG-monomethyl-L-arginine, a NOS inhibitor, completely blocked the 8-bromocAMP-induced NOx production, whose effect was partially, but significantly reversed by an excess L-arginine, but not by D-arginine. Compounds that increase intracellular cAMP levels (cholera toxin, forskolin, and 3-isobutyl-1-methylxanthine), all stimulated NOx production. Dexamethasone inhibited the stimulated NOx production, as well as the induction of iNOS mRNA by cAMP. Both actinomycin D and cycloheximide completely blocked the stimulated NOx production by cAMP. Actinomycin D abolished the cAMP-induced iNOS mRNA, whereas cycloheximide remarkably increased iNOS mRNA levels in the presence and absence of 8-bromo-cAMP (superinduction). Actinomycin D, but not dexamethasone, completely abolished the cycloheximide-induced iNOS mRNA. The half-life of cAMP-induced iNOS mRNA was -2 h, whereas no decay in the cycloheximide-induced iNOS mRNA was observed during 12 h. These results demonstrate that iNOS gene is upregulated by cAMP and the superinduction of iNOS mRNA is attributable to increased mRNA stability in rat VSMC. (J. Clin. Invest. 1994. 93:543-549.)
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