UMLS:C0406810 - FACTA Search

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Query: UMLS:C0406810 (NAME)
13,345 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

This study was designed to examine if acute systemic blockade of nitric oxide (NO) production by inhibition of nitric oxide synthase (NOS) with N-omega-nitro-L-arginine methyl ester (L-NAME) would worsen the severity of ischemic acute renal failure (ARF). Initially three groups of rats, were studied: 45 min of bilateral renal ischemia (I) alone, Group I; L-NAME (L; 10 mg/kg BW, i.v.) alone, Group L; and L-NAME administered 15 min before renal ischemia, Group L+I. We observed, however, a 60% mortality in Group I+L during the first 4 h of reflow. Captopril, administered acutely 15 min before L-NAME in an attempt to offset any detrimental effects of increased angiotensin II generation in response to renal ischemia, failed to obviate the mortality because 67% of rats in this group (Group C+L+I) also died. Therefore, additional studies were performed in rats instrumented for cardiovascular studies to evaluate the acute hemodynamic responses during the first 90 min of reperfusion following renal ischemia in rats pretreated with L-NAME. As expected, L-NAME injection was accompanied by a 25-30 mm Hg increase in mean systemic arterial pressure (SAP) (p < 0.05), a bradycardia (p < 0.02), and a decrease in cardiac output (CO) (p < 0.02). The increase in SAP was due exclusively to an increase in systemic vascular resistance (SVR) (p < 0.01). Ischemia and reflow in the L-NAME-treated rats were attended by a progressive increase in SVR and a progressive decrease in CO such that by the end of 45 min of reperfusion SVR had increased 10-fold and CO had decreased to one third of its initial rate (both p < 0.02). Pulmonary artery pressure (PAP) increased promptly following L-NAME injection. Total pulmonary resistance (PRT) increased significantly by the end of reperfusion. L-NAME in combination with renal ischemia and reflow induces a large increase in both SVR and PRT, and is accompanied by a 70% reduction in CO and substantial mortality.
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PMID:Nitric oxide synthase inhibition and acute renal ischemia: effect on systemic hemodynamics and mortality. 756 11

Recently we developed a model of cyclosporine nephropathy in rats characterized by tubulointerstitial (TI) injury, macrophage infiltration, and progressive interstitial fibrosis [1, 2]. To determine if the TI injury accompanying cyclosporine A (CsA) nephropathy was associated with accelerated apoptosis and ischemia, we treated rats for five weeks with CsA with or without losartan (to block angiotensin II type 1 receptor), or hydralazine/furosemide (H/F) (protocol #1). In protocol #2, rats received CsA with or without L-NAME (to block nitric oxide) or L-arginine (to provide a precursor to nitric oxide formation). Cyclosporine A treated rats had increased apoptosis of tubular and interstitial cells documented by PAS, propidium iodide staining, TUNEL assay, and electron microscopy compared to vehicle treated controls. Macrophages containing apoptotic cells could be confirmed by TUNEL/ED-1 doublestaining and colocalized in areas of TI injury. Animals treated with CsA + losartan had a statistically significant decrease in apoptosis (TUNEL + cells/mm2) when compared to CsA treated animals (6.0 vs. 19.9, P < or = 0.0001). The decrease in apoptosis in the CsA + H/F group was not statistically significant. Animals treated with CsA + L-NAME had a statistically significant increase in apoptosis compared to the CsA treated animals (12.3 vs. 6.4, P = 0.001). L-arginine administration with CsA resulted in a decrease in tubulointerstitial apoptosis versus CsA treated animals, however, this did not reach statistical significance. The addition of L-arginine did result in a significant reduction in interstitial fibrosis (P < 0.0001). Regression analysis revealed a significant correlation between apoptosis and interstitial fibrosis in both protocols. (CsA vs. CsA + losartan r = 0.63, P < 0.0001; CsA vs. CsA + L-NAME r = 0.83, P < 0.0001). We conclude that CsA nephropathy is associated with a marked increase in apoptosis of tubular and interstitial cells. Cyclosporine A induced apoptosis is partially mediated by angiotensin II and nitric oxide inhibition, suggesting a role for renal ischemia in this process, and CsA induced apoptosis correlates with interstitial fibrosis.
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PMID:Accelerated apoptosis characterizes cyclosporine-associated interstitial fibrosis. 955 96

Nitric oxide (NO) and dopamine (DA) have similar effects on renal function, with both having natriuretic and diuretic effects mediated by vascular and tubular mechanisms. Renal ischaemia or hypoxia have been shown to influence the activity of both systems. However, it is not known whether there is any crosstalk between the NO and dopaminergic systems in the kidney. Here using the porcine proximal tubule-like renal epithelial LLC-PK1 cell line as a model system, we determined whether exposure of cells to chemical hypoxia altered the steady-state levels of D1A receptor mRNA and whether the changes involved the NO system. Exposure of LLC-PK1 cells to chemical hypoxia resulted in a marked increase in D1A receptor mRNA levels as measured by reverse transcription-polymerase chain reaction (RT-PCR). The increased levels of D1A receptor mRNA following hypoxia were blocked by the NO synthase inhibitors NG-nitro-L-arginine methylester (L-NAME) or NG-monomethyl-L-arginine (L-NMMA). Further evidence that the NO system exerted positive effects on D1A receptor gene expression came from finding that the NO donor sodium nitroprusside, the NO precursor L-arginine and the guanosine 3', 5'-cyclic monophosphate (cyclic GMP) analogue 8-Br-cGMP all increased D1A receptor mRNA levels in LLC-PK1 cells. These results indicate that expression of the D1A receptor in LLC-PK1 cells can be positively regulated by the NO system. Such an interaction between the renal NO and DA systems may contribute to the reported protective effects that NO and DA exert upon the kidney under conditions of ischaemia.
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PMID:Chemical hypoxia-induced increases in dopamine D1A receptor mRNA in renal epithelial cells are mediated by nitric oxide. 1069 6

Pharmacological interruption or genetic disruption of the renin-angiotensin system before completion of nephrogenesis produces papillary atrophy and an impaired urinary concentrating ability. The mechanisms involved are yet to be elucidated, but renal hypoperfusion and subsequent ischemia, particularly to the immature renal medulla, may be hypothesized. The acute intrarenal responses to angiotensin-converting enzyme (ACE) inhibition in the newborn piglet were thus investigated by means of regional blood flow distribution, renal interstitial hydrostatic pressure (RIHP), and medullary oxygen tension (PO2) in the anesthetised 4- to 5-day-old piglet. Moreover, the calcium antagonist nifedipine and the nitric oxide synthesis inhibitor L-NAME were also given in order to reduce renal blood flow by other means. The drugs were given intravenously in equipotent pressor doses, mimicking intraperitoneal injections in neonatal rats. Enalaprilat (200 microg/kg) reduced mean arterial pressure (MAP) by 14+/-10% (mean+/-SD, P=0.006) and RIHP by 18+/-18% (P=0.001), whereas total renal blood flow and medullary PO2 remained unchanged. In contrast, nifedipine (0.5 mg/kg) reduced MAP and RIHP by 39+/-8% and 38+/-14%, respectively, total and regional blood flows by 30%-60%, and medullary PO, by 46+/-29% (P=0.001). Acute administration of L-NAME (15 mg/kg) increased MAP by 27+/-10% (P=0.0005), whereas RIHP and renal blood flow decreased by 20%-50%, resulting in a reduction of the medullary PO2 by 10+/-12% (P=0.05). We conclude that the renal abnormalities observed after neonatal ACE inhibition are not likely to be caused by renal ischemia.
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PMID:Acute renal responses to angiotensin-converting enzyme inhibition in the neonatal pig. 1104 89

Renal ischemia in humans and in experimental animals is associated with a complex and possibly interrelated series of events. In this study, we have investigated the glomerular nitric oxide (NO) production after renal ischemia. Unilateral or bilateral renal ischemia was induced in Wistar rats by clamping one or both renal arteries. NO production was assessed by measuring glomerular production of nitrite, a stable end product of NO catabolism, and NO-dependent glomerular cGMP production and by assessing the glomerular NADPH diaphorase (ND) activity, an enzymatic activity that colocalizes with NO-synthesis activity. Furthermore, we determined the isoform of NO synthase (NOS) implicated in NO synthesis by Western blot and immunohistochemistry. Glomeruli from rats with bilateral ischemia showed elevated glomerular nitrite and cGMP production. Besides, glomeruli from this group of rats showed an increased ND activity, whereas glomeruli from the ischemic and nonischemic rats with unilateral ischemia did not show this increase in nitrite, cGMP, and ND activity. In addition, glomeruli from ischemic kidneys showed an increased expression of endothelial NOS without changes in the inducible isoform. Addition of L-NAME in the drinking water induced a higher increase in the severity of the functional and structural damage in rats with bilateral ischemia than in rats with unilateral ischemia and in sham-operated animals. We can conclude that after renal ischemia, there is an increased glomerular NO synthesis subsequent to an activation of endothelial NOS that plays a protective role in the renal damage induced by ischemia and reperfusion.
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PMID:Renal ischemia in the rat stimulates glomerular nitric oxide synthesis. 1117 57

Reactive oxygen species have been implicated in the pathophysiology of renal ischemia reperfusion injury. Antioxidants including polyphenolics have been found to protect renal cells from the cellular injury induced by ischemia and reperfusion. Resveratrol, a stilbene polyphenol found in grapes and red wine, has recently been found to protect isolated rat heart from ischemia reperfusion injury. This study was sought to determine if resveratrol could also protect renal cells from ischemic injury. Male Wistar rats were treated with control, resveratrol (0.23 microg/kg), vehicle used to solubilize resveratrol, and resveratrol plus L-NAME (15 mg/kg body wt), a nitric oxide blocker. Our results demonstrated that resveratrol administration reduced the mortality of ischemic rats from 50% to 10% and renal damage was reduced as indicated by histologic examination and serum creatinine level. The short-term administration of resveratrol also inhibited renal lipid peroxidation induced by ischemia and reperfusion both in cortex and in medulla. Electron paramagnetic resonance detected an increased formation of nitric oxide in the resveratrol-treated kidney that was reduced to the baseline value after treating the rats with L-NAME in addition to resveratrol. The results suggest that resveratrol reduced the renal ischemia reperfusion injury through a nitric oxide-dependent mechanism.
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PMID:Resveratrol, a polyphenol found in wine, reduces ischemia reperfusion injury in rat kidneys. 1124 16

Aim of this experimental study is to verify the protective effect of molsidomine on the renal function and structural modifications in the ischemia-reperfusion rat kidney. Sixty-eight male Sprague-Dawley rats, which were right nephrectomized and occluded left renal artery for 60 minutes were used. Group I (n = 10) Sham-Operated animals, which only underwent right nephrectomy. Group II (n = 20) Untreated ischemic rats, which underwent left renal ischemia by occlusion of the renal artery for 60 minutes before blood flow was restored. Group III (n = 18) Molsidomine treated ischemic rats, Group IV (n = 20) L-NAME (N(G)-nitro-L-arginine methyl ester) treated ischemic rats. Serum creatinine and blood urea nitrogen (BUN) were measured daily and biopsies were obtained from the remaining left kidneys. At seventh day, 55% and 50% of the rats remained alive at the G-II and G-IV respectively. Molsidomine treated rats (G-III) were alive and healthy at day 7. The serum creatinine and BUN levels were significantly higher in G-II and G-IV when compared with the sham-operated group (G-I). G-III rats showed a rapid return to the normal serum creatinine and BUN values on postoperative days 1, 2, 3 and 4. The obtained values in G-II were significantly lower in comparison to the values of G-II and G-IV. The most severe damage (grade 3 to 4) was determined in the kidneys of rats from GII or GIV. The degree of renal tubular damage in GIII was evaluated as grade 1 or 2 tubular damage according to Jablonkski's scale. Our findings suggested that the administration of molsidomine may vanquish the pernicious effects of warm ischemia on kidney structure and function.
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PMID:The effects of the nitric oxide donor molsidomine prevent in warm ischemia-reperfusion injury of the rat renal--a functional and histophatological study. 1198 49

Tissue nitric oxide (NO) levels increase dramatically during ischemia, an effect that has been shown to be partially independent from NO synthases. Because NO is stored in tissues as S-nitrosothiols and because these compounds could release NO during ischemia, we evaluated the effects of buthionine sulfoximine (BSO; an intracellular glutathione depletor), light stimulation (which releases NO, decomposing S-nitrosothiols), and N-acetyl-L-cysteine (a sulfhydryl group donor that repletes S-nitrosothiols stores) on the changes in outer medullary NO concentration produced during 45 min of renal artery occlusion in anesthetized rats. Renal ischemia increased renal tissue NO concentration (+223%), and this effect was maintained along 45 min of renal arterial blockade. After reperfusion, NO concentration fell below preischemic values and remained stable for the remainder of the experiment. Pretreatment with 10 mg/kg nitro-L-arginine methyl ester (L-NAME) decreased significantly basal NO concentration before ischemia, but it did not modify the rise in NO levels observed during ischemia. In rats pretreated with 4 mmol/kg BSO and L-NAME, ischemia was followed by a transient increase in renal NO concentration that fell to preischemic values 20 min before reperfusion. A similar response was observed when the kidney was illuminated 40 min before the ischemia. The coadministration of 10 mg/kg iv N-acetyl-L-cysteine with BSO + L-NAME restored the increase in NO levels observed during renal ischemia and prevented the depletion of renal thiol groups. These results demonstrate that the increase in renal NO concentration observed during ischemia originates from thiol-dependent tissue stores.
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PMID:Renal ischemia induces an increase in nitric oxide levels from tissue stores. 1594 68

Nitric oxide (NO) and the expression of endothelial (eNOS) and inducible (iNOS) isoforms of nitric oxide synthase (NOS) are recognized as important mediators of physiological and pathological processes of renal ischemia/reperfusion (I/R) injury, but little is known about their role in apoptosis. The ability of the eNOS/NO system to regulate the iNOS/NO system and thus promote apoptosis was assessed during experimental renal I/R. Renal caspase-3 activity and the number of TUNEL-positive cells increased with I/R, but decreased when NOS/NO systems were blocked with L-NIO (eNOS), 1400W (iNOS), and N-nitro-l-arginine methyl ester (L-NAME; a nonselective NOS inhibitor). I/R increased renal eNOS and iNOS expression as well as NO production. The NO increase was eNOS- and iNOS-dependent. Blockage of NOS/NO systems with L-NIO or L-NAME also resulted in a lower renal expression of iNOS and iNOS mRNA; in contrast, eNOS expression was not affected by iNOS-specific blockage. In conclusion, two pathways define the role of NOS/NO systems in the development of apoptosis during experimental renal I/R: a direct route, through eNOS overexpression and NO production, and an indirect route, through expression/activation of the iNOS/NO system, induced by eNOS.
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PMID:NO and NOS isoforms in the development of apoptosis in renal ischemia/reperfusion. 1654 Mar 95

Ischemia-reperfusion (I/R) injury induces an inflammatory response and production of oxygen-derived reactive species which affect many organs including heart, brain, kidney and gastrointestinal tract. The aim of this study was to assess the hepatic changes after renal I/R injury. Male Sprague Dawley rats were subjected to either sham operation or treatment with L-NAME, L-arginine and BQ-123 during 30 min renal ischemia and 2 h reperfusion injury. Hepatic superoxide dismutase (SOD), catalase, glutathione peroxidase (GSH-Px) activities, and thiobarbituric acid-reactive substances (TBARS) and nitric oxide (NO) levels were evaluated to show hepatic response to renal I/R injury. Catalase and SOD activities showed significant differences between the control and the other groups after I/R. On the other hand, GSH-Px activity did not show any significant changes between the control and the other experimental groups mentioned under above conditions. Meanwhile, levels of TBARS were not different between the control and the other experimental groups, whereas NO level showed changes between the control and experimental groups except the one to which endothelin receptor antagonist agent (BQ-123) subjected. Experimental period may not be enough to determine the changes in GSH-Px activity and level of TBARS. However, catalase and SOD activities decreased in experimental groups treated by chemical agents. NO level decreased in chemicalagent-applied experimental groups but not in the group to which endothelin receptor antagonist BQ-123 was applied alone.
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PMID:Effect of BQ-123 and nitric oxide inhibition on liver in rats after renal ischemia-reperfusion injury. 1691 32

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