UNIPROT:Q92565 - FACTA Search

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Query: UNIPROT:Q92565 (GFR)
4,179 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Effects of sodium nitrate were compared with sodium chloride loading on transport of electrolytes by the nephron. Maximal levels of free water clearance/clomerular filtration rate (CH2O/GFR) averaged 8.4% with nitrate loading and 14.4% with saline loading. Since ethacrynic acid and chlorothiazide exert their major natriuretic effect in the distal nephron, the increment in Na ad Cl reabsorbed beyond the proximal tubule. The administration of these agents resulted in an increase in fractional sodium excretion (CNa/GFR) of 21.1%, urinary sodium excretion (UNaV) of 1,126 mueq/min, and urinary chloride excretion (UClV) of 848 mueq/min during nitrate loading compared with an increase in CNa/GFR of 37.6%, UNaV of 2,362 mueq/min, and UClV of 2,397 mueq/min during saline loading. The smaller diuretic-induced increment in Na and Cl excretion in the nitrate studies suggests, as do the hydrated studies, that less Cl and Na are reabsorbed in the distal nephron during nitrate than saline loading. At every level of UNaV, fractional bicarbonate reabsorption was higher, urine pH was lower, and urinary potassium excretion (UKV) was higher in the nitrate studies. Thus, compared with saline loading, sodium nitrate decreases chloride and sodium reabsorption in the distal nephron. The higher hydrogen and potassium secretion in the nitrate studies may be consequent to the decreased ability of the distal nephron to reabsorb chloride.
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PMID:Effect of sodium nitrate loading on electrolyte transport by the renal tubule. 0 16

The protective effects of a combination of dopamine and furosemide were studied in dogs during the initial phase of acute renal failure (ARF) induced by intravenous uranyl nitrate (10 mg/kg). Fifteen minutes after injection of the nephrotoxin, and infusion of dopamine (3 micrograms/kg/min), furosemide (1 mg/kg/bolus followed by 1 mg/kg/hr), or both drugs simultaneously were given for 6 hours. Exogenous creatinine clearance was measured for 6 hours, and the intrarenal blood flow was measured with radioactive microspheres before and 3 hours after the induction of ARF. Treatment with both dopamine and furosemide produced renal vasodilatation, high urine flow rate, and attenuation of the fall in GRF seen in untreated animals. In contrast, single use of dopamine or furosemide was totally ineffective in producing renal vasodilation, a diuresis, or the maintenance of the GFR. These data indicate that dopamine plus furosemide have a synergistic effect in preventing the early pathophysiologic changes associated with ARF in this animal model. Maintenance of a high GFR correlated best with the enhancement of solute excretion and urine flow rate. Potential protective effects of dopamine plus furosemide in other models of ARF deserve careful investigation.
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PMID:Synergism of dopamine plus furosemide in preventing acute renal failure in the dog. 51 4

Isosorbit 5-mononitrate is useful in ischaemic heart disease and in cardiac failure because of its favourable pharmacokinetic properties, in particular the absence of the so-called first pass effect, the great biological availability and long elimination time. The authors demonstrated on the preparation Elentan long, Schwarz Monheim GFR, which contains 50 mg isosorbit 5-mononitrate the improved efficiency of the left ventricle after three months administration to 15 patients with confirmed ischaemic heart disease, by exerting a favourable effect on the diastolic, systolic and global left ventricular function. Nitrates are drugs of first choice in some forms of ischaemic heart disease and are also effective in cardiac failure because they exert a marked effect on some cardiac functions on which the efficiency of the left ventricle depends. Elentan long proved, while using simple dosage, a preparation with favourable characteristics as regards biological availability and nitrate tolerance.
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PMID:[Effectiveness of the delayed-action form of isosorbide 5-mononitrate in ischemic heart disease]. 203 13

Nitric oxide (NO) is generated from L-arginine (Arg) by different isoforms of nitric oxide synthase (NOS) and plays a major role in maintaining the high basal renal blood flow. NO also is involved in the regulation of glomerular haemodynamics and contractility of mesangial cells. We examined the hypothesis that L-arginine-derived NO modifies toxic ARF in the rat. After a basal period uranyl nitrate (UN) was given intravenously as a bolus injection (25 mg/kg over 5 min) to induce ARF. After the initiation phase of ARF (3 h) saline in the control group (C) and drugs in the experimental groups (I-III, each n = 8) were administered for 60 min. Group I, Arg (300 mg/kg); group II, MeArg (30 mg/kg); group III, Arg + MeArg (300 mg/kg, 30 mg/kg resp.). The experiments were continued for further 60 min following the infusion period. Glomerular filtration rate (GFR, inulin clearance) was reduced 3 h after UN to about 50% of normal values in groups I-III and control group (I, 0.52 +/- 0.06; II, 0.51 +/- 0.05; III, 0.49 +/- 0.05; C, 0.50 +/- 0.07 ml/min). After infusion of Arg GFR had significantly improved (0.64 +/- 0.07), but further declined after MeArg (0.46 +/- 0.06) in relation to control (0.47 +/- 0.07). This negative effect could be overcome by combined administration of Arg + MeArg (0.59 +/- 0.07). One hour after the infusion period these effects were even more pronounced (Arg, 0.71 +/- 0.06; MeArg, 0.43 +/- 0.05; Arg + MeArg, 0.65 +/- 0.07; C, 0.46 +/- 0.05). We conclude that the L-arginine/NO pathway is involved in toxic ARF of the rat.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Toxic acute renal failure in the rat: effects of L-arginine and N-methyl-L-arginine on renal function. 752 67

To evaluate the association of cyclosporine (CsA)-related nephrotoxicity with nitric oxide (NO) and endothelin, the effects of L-arginine (LA) and branched-chain amino acid (BCAA) infusions on renal hemodynamics in 5 normal volunteers and 12 renal transplant recipients were assessed. In normal humans, LA, but not BCAA, reduced mean arterial pressure and renal vascular resistance while increasing RPF and urinary nitrate (NO3-) excretion. Group 1 included six transplant recipients not on CsA; Group 2 subjects (N = 6) were receiving CsA. In both groups, mean arterial pressure declined during the infusion of LA (116 +/- 4 to 109 +/- 4 mm Hg; P < 0.001) but not BCAA (116 +/- 3 to 115 +/- 3; P = not significant). In Group 1, LA increased RPF 33 +/- 13% (329 +/- 48 to 436 +/- 77 mL/min per 1.73 m2; P = 0.01) and GFR 37 +/- 16% (95 +/- 7 to 130 +/- 18 mL/min per 1.73 m2; P = 0.01); renal vascular resistance declined 27 +/- 6%. In Group 2, LA did not affect renal hemodynamics. No changes occurred with BCAA in either group. LA increased urinary NO3-excretion by 27 +/- 17% in Group 1 (P < 0.05), but only by 16 +/- 13% in Group 2 (P = not significant). Urinary endothelin excretion was higher in Group 2 subjects (10.1 +/- 1.3 versus 5.3 +/- 0.8 pg/mL of GFR, P < 0.01). LA-induced renal vasodilation is associated with the increased urinary excretion of NO3-.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Cyclosporine inhibits the renal response to L-arginine in human kidney transplant recipients. 770 80

The effect(s) of L-arginine administration on the renal function of rats with untreated diabetes mellitus was examined. Rats received streptozotocin (N = 11) or vehicle (N = 12): Group 1 (normal rats, N = 6) drank tap water; Group 2 (normal rats, N = 6) drank tap water containing 1% L-arginine; Group 3 (diabetic rats, N = 5) drank tap water; and Group 4 (diabetic rats, N = 6) drank tap water with 1% L-arginine. Rats were fed a standard rat chow diet (22.8% protein, 142% L-arginine) with free access to food and water for 14 wk. Diabetic rats gained less weight, had significantly lower plasma levels of albumin and L-arginine, and had greater values for 24-h urine volumes and urine excretion of glucose, protein, urea, creatinine, nitrate, and nitrite than control rats. Diabetic rats given L-arginine (Group 4) had significantly lower protein and cGMP excretion in the urine than did rats of Group 3. The administration of L-arginine did not affect the plasma levels of glucose or L-arginine in Groups 2 or 4 compared with those of their respective controls. Group 3 had significantly higher values for GFR than did the other three groups of rats, but values for effective RPF, mean arterial pressure, hematocrit, and renal vascular resistance were not significantly different between Groups 3 and 4. There was no significant difference in glomerular morphology among the four groups of rats as determined by light microscopy, and both groups of diabetic rats exhibited the Armanni-Ebstein lesion in their tubules.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:L-arginine administration prevents glomerular hyperfiltration and decreases proteinuria in diabetic rats. 828 12

In order to study the role of EDRF in diabetic hyperfiltration, the concentrations of NO2-/NO3-, the stable products of nitric oxide (NO), were measured in arterial plasma, urine, and renal venous blood in streptozotocin diabetic rats and normal control rats. In additional experiments, the renal hemodynamic and blood pressure responses to graded doses of an inhibitor of NO synthesis (Nitro-L-arginine; NLA) were measured. We found that plasma and urinary levels of NO2/NO3 are significantly higher in STZ diabetic rats (10 to 15 days) than in normal rats. Renal blood flow and GFR fell comparably in diabetic and normal rats in response to NLA infusion, although the absolute levels of RBF and GFR remained significantly higher in the diabetic rats at all doses of the inhibitor. Mean arterial blood pressure (MAP) rose in response to NLA administration, but the increase in the diabetic rats was significantly blunted as compared with the normal rats. Similarly, renal vascular resistance (RVR) increased less in the diabetic than in the normal rats at comparable doses of NLA. The blunted vasoconstrictor responses to NLA were accompanied by a smaller reduction in the levels of NO2-/NO3- in the urine of the diabetic versus the normal rats. These findings suggest that NO synthesis is increased in diabetic rats manifesting hyperfiltration and are consistent with the view that excess NO synthesis contributes to renal hyperfiltration.
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PMID:Role of EDRF (nitric oxide) in diabetic renal hyperfiltration. 831 43

Besides other mechanisms, nitric oxide (NO) plays a major role in maintaining the high renal blood flow (RBF) and is also involved in the regulation of glomerular hemodynamics and contractility of mesangial cells. We examined the hypothesis that L-arginine-derived NO exerts beneficial effects in toxic acute renal failure (ARF) in the rat. To induce ARF uranyl nitrate (UN) was given intravenously as a bolus injection (25 mg/kg over 5 min) following a basal period. After the initiation phase of ARF (3 h) saline in the control group (C) and drugs in the experimental groups (I-III, each n = 8) were administered for 60 min. Group I: Arg (= L-arginine, 300 mg/kg), group II: MeArg (= N-methyl-L-arginine, 30 mg/kg), group III: Arg + MeArg (300 mg/kg, 30 mg/kg respectively). The experiments were continued for additional 60 min following the infusion period. Glomerular filtration rate (GFR, inulin clearance) was reduced 3 h after UN to about 50% of normal values in group I-III and control group. After infusion of Arg GFR had significantly improved, but remained unchanged after MeArg in relation to control. One hour after the infusion period these effects were even more pronounced. We conclude that NO exerts beneficial effects on renal function in this animal model of ARF. These results underline the regulatory role of the L-arginine/NO pathway for renal function not only under basal conditions but also in ARF.
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PMID:Influence of nitric oxide on renal function in toxic acute renal failure in the rat. 867 13

Studies were conducted to investigate the impact of nitric oxide synthesis inhibition on blood pressure and glomerular hemodynamic adaptations to pregnancy in the rat. In normal pregnancy, urinary excretion of NO2 + NO3 (NOx), reflecting increased nitric oxide (NO) production, progressively increased. Blockade of NO production in virgin and late pregnant Sprague-Dawley rats caused systemic hypertension, increased renal vascular resistance (RVR), reductions in RPF but GFR remained unchanged. In cortical nephrons, preglomerular and efferent arteriolar resistance (RA and RE) were elevated and glomerular capillary blood pressure (PGC) increased markedly. Glomerular plasma flow (QA) and the glomerular capillary ultrafiltration coefficient, Kf, were reduced without change in single nephron glomerular filtration rate (SNGFR) because of the large elevation in PGC. The pressor and glomerular hemodynamic responses to NO blockade were similar in virgins and pregnancy. Urinary NOx excretion was markedly reduced in all groups with chronic NO blockade. Inhibition was incomplete in pregnancy, however, and a level of NO production that was adequate for normal BP and renal function in virgins, led to severe vasoconstriction in pregnancy. The present studies suggest that chronic NO deficiency leads to derangement of the hemodynamic adaptations of pregnancy.
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PMID:Impact of nitric oxide deficiency on blood pressure and glomerular hemodynamic adaptations to pregnancy in the rat. 888 70

To investigate the role of nitric oxide (NO) with respect to kidney function and liver cirrhosis, we evaluated renal function, as well as cyclic guanosine monophosphate (cGMP) and NOx (nitrite/nitrate [NO3-/NO2-]) as indirect markers of NO formation in plasma and urine at rest and during amino acid (aa)-induced glomerular hyperfiltration in patients with Child A liver cirrhosis and portal hypertension (n = 12), and in healthy controls (n = 10). Baseline filtration rate (GFR) and effective renal plasma flow (ERPF) were significantly lower in patients with cirrhosis than in controls (GFR: mean 88 +/- SD 16 mL/min vs. 106 +/- 15 mL/min, P = .01, ERPF: 477 +/- 93 vs. 561 +/- 72 mL/min, P = .002). In both groups amino acid (aa) infusion increased GFR, ERPF, as well as cGMP and urinary NOx. Changes in GFR were similar in cirrhotic patients and controls (28.3% +/- 14% in cirrhotics and 26% +/- 11% in controls), but the degree of aa-induced changes in ERPF was more marked in patients with liver cirrhosis (31.8% +/- 17% vs. 18.6% +/- 12%, P = .02). Plasma levels of NOx and cGMP were similar in either group at baseline and during aa infusion, whereas NOx and cGMP excretion in cirrhotics was constantly 14% to 24% lower than in the control group. We conclude that patients with compensated liver cirrhosis and portal hypertension already have an impaired kidney function. In addition our data suggest a cirrhosis-related dissociation between ERPF and GFR during aa stimulation. Further studies are warranted to find out whether a local imbalance between vasoconstrictors and vasodilators, e.g., decreased local NO formation, plays a key role for this phenomenon.
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PMID:Renal functional reserve and nitric oxide in patients with compensated liver cirrhosis. 932 5

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