Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

Tubular function in the early phase (one to three hours) after transplantation of rat kidneys was analyzed with respect to glomerular filtration, vascular and tubular pressures, and excretory variables. Kidneys exposed to a short period of cold ischemia (two hours) functioned almost normally, except for a polyuria. After 12 and 16 hr of cold ischemia, nephron heterogeneity appeared with 1) "normal" tubules, 2) dilated tubules, and 3) collapsed tubules. In the "normal" tubules, the pressure was increased to 20 mm Hg, and the filtration was reduced in proportion to the mean net driving force. The dilated tubules had no filtration due to a more or less complete tubular obstruction, probably located in the thin loop of Henle and in the collecting ducts. The collapsed tubules had no filtration due to glomerular ischemia, which in turn might be the consequence of afferent arteriolar constriction. The total GFR was greatly reduced since only the "normal" tubules contributed to the total filtration. Concentrating ability and potassium secretion were also impaired. We interpreted this impairment as being due to medullary dysfunction, which would explain the isosthenuria and the impaired potassium transport.
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PMID:Nephron function of the transplanted rat kidney. 35 5

Unilateral renal ischemia was induced in rats by clamping the left renal artery for 20, 60, and 120 min, respectively. One hour after the arterial clamp was removed, renal handling of gentamicin and paraaminohippurate (PAH) was studied over the next 2 hours; the kidneys were removed at the end of the experiments for determination of gentamicin and PAH content. The ischemic damage was evidenced by morphologic and functional changes. The glomerular filtration was decreased in proportion to the severity of ischemic injury. The excretion of gentamicin was highly correlated with GFR in normal and postischemic kidneys. In the cortex, ischemic injury resulted in reduced concentrations of gentamicin but markedly augmented those of PAH. The finding is consistent with the hypothesis that gentamicin is reabsorbed by the epithelial cells through the luminal membrane, whereas PAH enters via the peritubular membrane. In contrast, medullary concentrations of both compounds were similar, with suppression of uptake seen only after 120 min of ischemia. Conclusion. Ischemic damage impairs urinary elimination of gentamicin and the ability of renal parenchyma to retain the drug. Difference in uptake between gentamicin and PAH were unmasked in the postischemic kidneys.
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PMID:Urinary excretion and tissue accumulation of gentamicin and paraaminohippurate in postischemic rat kidneys. 45 44

The results of preservation of the two kidneys of the same animal by two different techniques and then reimplanted on the same femoral artery, have been compared. The two methods are the following: 1) Short starting perfusion by Collins solution and than cold storage a 4 degrees C in the same solution. 2) Continuous perfusion by machine supplied by pulsatile pump, oxigenator, cooling. The first more impressive result by using continuous perfusion is the possibility of nullifying the effects of warm ischemia up to 30'. Kidney preservation with continuous perfusion is like to give less problems in the postoperatory period. Some weeks after transplantation however, the problems seems to increase in comparison with kidneys stored in Collins solution and not rarely sudden GFR decreases or anurias without immunologic rejection has been observed. Cautious conclusion should advise to use Collins solution when there has not been a long warm ischemia.
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PMID:[Kidney preservation methods (author's transl)]. 78 20

The hypothesis that dietary fish oil would protect dogs from ischemic acute renal failure was tested. Fish oil (eicosapentaenoic acid, 55 mg/kg per day, and docosahexaenoic acid, 40 mg/kg per day was given to eight instrumented, female, beagle dogs for 6 wk, while seven control dogs received vehicle. After 3 wk, unilateral nephrectomy was performed and a pneumatic cuff with flow probe was placed around the remaining renal artery of each dog. Three weeks thereafter, the cuff was inflated for 120 min. Renal function, RBF, and prostanoid excretion were measured 24 and 72 h after ischemia. In dogs receiving fish oil, blood pressure, GFR, RBF, renal vascular resistance (RVR), cholesterol, triglycerides, and prostanoid excretion were measured weekly for 6 wk. Further, cytosolic calcium was measured before and five times after fish oil. Blood pressure decreased, serum cholesterol and triglycerides decreased, and the cytosolic calcium within platelets decreased. The urinary excretion (expressed as picograms per milligram of creatinine) of the thromboxane (TX) metabolite TXB2 and the excretion of prostaglandin (PG)E2, as well as the excretion of the PGI2 metabolite 6-keto PGF1 alpha were decreased. GFR, RBF (Cl inulin and Cl para-aminohippuric acid), and RVR were not influenced by fish oil. Unilateral nephrectomy decreased GFR and RBF and increased RVR as expected, whereas it further decreased prostanoid excretion. Acute renal ischemia caused a significant, reversible decrease in GFR and urine volume in vehicle-treated animals, whereas no significant effect on renal function or urine volume was observed in animals pretreated with fish oil.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Amelioration of ischemic acute renal failure by dietary fish oil administration in conscious dogs. 147 27

Oxygen tension within the renal parenchyma is influenced by two factors: metabolic demand and oxygen supply. There are three regions within the kidney in which there is an anatomical basis for limited oxygen availability. The first is the inner stripe where oxygen diffusion between arterial and venous vasa recta reduces PO2. The other two are the outer stripe and medullary rays which are fed by O2-poor blood from venous vasa recta. The balance between oxygen demand and supply is most critical in the inner stripe where the PO2 is most influenced by transport activity. In contrast, altering transport activities in the outer stripe will not change the prevalence of hypoxic S3 injury but will alter its type (i.e., cell fragmentation related to high GFR and increased workload versus cell edema related to low GFR and minimal workload). The effect of transport activity on medullary ray PO2 has not been well defined. Using sensitive oxygen microelectrodes, cortical PO2 (52 +/- 2 mm Hg) in the rat was found to be higher than medullary PO2 (21 +/- 2 mm Hg, p less than 0.001). How are these observations reflected in current models of acute renal failure? The ischemia-reflow model affects proximal tubules with a predilection for S3 (located within the outer stripe of medulla) after short-term ischemia. With hyperfiltration (induced by glycine or renal hypertrophy) and the pursuant increase in transport related O2 demand, hypoxic mTAL inner stripe injury becomes prominent. Renal parenchymal hypertrophy exaggerates injury in the contrast nephropathy model, in which mTAL inner stripe injury is a predominant feature and medullary PO2 is very low.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Determinants of intrarenal oxygenation: factors in acute renal failure. 150 64

Cyclosporine has been shown to reduce renal perfusion and to decrease glomerular filtration rate. Experimental studies suggest that nifedipine might reverse this renal vasoconstrictive effect of cyclosporine. We studied renal hemodynamics of 5 cyclosporine-treated renal transplant recipients before and after 2 weeks of therapy with high-dose nifedipine (up to 120 mg/day). Pretreatment GFR and renal plasma flow (RPF) were decreased. Following administration of nifedipine, RPF increased by 18% (P less than 0.01), while GFR did not change. Filtration fraction decreased by 10.5% (P less than 0.01). Mean arterial pressure declined from 111 +/- 5 to 96 +/- 3 mmHg (P less than 0.01). Renal vascular resistance dropped by 25% (P less than 0.01). Calculated postglomerular plasma flow increased by 20.5% (P less than 0.01). Urinary albumin excretion rate was unaffected. Cyclosporine whole blood levels were unchanged. The increase in RPF and in postglomerular plasma flow suggests that high-dose nifedipine might lessen cyclosporine-induced glomerular and interstitial ischemia in renal allograft recipients.
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PMID:The effect of high-dose nifedipine on renal hemodynamics of cyclosporine-treated renal allograft recipients. 156 41

Glycine preserves tubular cell integrity under hypoxic and toxic conditions in vitro. It also ameliorates cisplatin nephrotoxicity in vivo. We studied the effect of glycine on tubular necrosis from ischemia reflow and on inner stripe injury in an animal model of radiocontrast nephropathy. In all experiments, glycine (75 mg/100 g/h) increased tubular damage in the inner stripe. In the model of radiocontrast nephropathy, the percentage of medullary thick ascending limb (mTAL) necrosis at 24 hours increased from 22% +/- 6% to 41% +/- 9% or 55% +/- 7% with glycine infusion of 75 or 135 minutes, respectively (mean +/- SE, P less than 0.05, analysis of variance [ANOVA]). Renal function was not significantly affected. In rat kidneys subjected to ischemia reflow, mTAL injury following glycine increased from 1% +/- 0% to 12% +/- 6% (P less than 0.05) and from 8% +/- 5% to 49% +/- 8% (P less than 0.01) 24 hours after 30 minutes and 45 minutes ischemia, respectively. Tubular injury in the inner stripe was maximal in the deep interbundle zone, typical of hypoxic, rather than reperfusion, injury. Prior uninephrectomy increased inner stripe damage, but protected the proximal tubules. Both uninephrectomy and glycine infusion were found to contribute to mTAL necrosis. The infusion of glycine for 1 hour in intact rats increased renal blood flow by 44% and tripled urine volume (P less than 0.01). A parallel increase in glomerular filtration rate GFR; by 22% over 90 minutes) fell short of statistical significance.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effect of glycine and hypertrophy on renal outer medullary hypoxic injury in ischemia reflow and contrast nephropathy. 159 7

Although reactive oxygen species are believed to participate in postischemic renal injury, the actual chemical species involved and the role of endogenous scavenging systems in protecting against injury requires additional study. Hydrogen peroxide, which derives from superoxide radical, is toxic and also yields toxic hydroxyl radical. 3-amino-1,2,4-triazole reacts with catalase to form irreversibly inactivated catalase only in the presence of hydrogen peroxide. We made use of this chemical reaction both to determine whether inhibition of the hydrogen peroxide-scavenging enzyme catalase would influence ischemic renal injury and to measure hydrogen peroxide production rates after ischemia. Sprague-Dawley rats were given aminotriazole (100 mg/kg) one hour before 40 min of renal ischemia. Twenty-four h after ischemia GFR had decreased to 300 microL/min in control animals and to 50 microL/min in aminotriazole-treated animals. Histologic evidence of injury was also worse in catalase-inhibited animals. To measure hydrogen peroxide production rates aminotriazole was given 60 min before measurement of renal catalase activity. In control animals, aminotriazole caused a 53.4% decrease in catalase activity. In animals subjected to 40 min of ischemia plus either 10 or 60 min of reflow catalase activity decreased by 33.9 and 49.5% (not significantly different from control). Thus, when measured by this method total renal hydrogen peroxide production was considerable but was not increased by ischemia. However, in isolated proximal tubule segments 60 min of anoxia and 30 min of reoxygenation caused a 42% increase in H2O2 released into the incubation medium. In summary, inhibition of catalase before ischemia led to exacerbation of ischemic injury.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Hydrogen peroxide and ischemic renal injury: effect of catalase inhibition. 164 49

In a previous study, we tested the hypothesis that an elevated level of renal glutathione (GSH) would protect the kidney from ischemic injury. However, prior elevation of GSH with GSH monoethylester enhanced then injury induced by 35 min of ischemia and blood reflow [Scaduto RC Jr, Gattone VH, Grotyohann LW, et al; Effect of an altered glutathione content on renal ischemic injury. Am J Physiol 1988;255:F911-F921]. Additionally, GSH monoethylester produced morphologic alterations in the absence of ischemia. Thus the greater ischemic injury observed after GSH ester pretreatment could have been due to a synergistic effect between the events caused by ischemia and the pretreatment. The present study was conducted to evaluate the utility of elevating renal GSH levels by administration of GSH. Administration of GSH (1 mmol/kg body weight) caused a 3-fold elevation of renal GSH levels and a 6-fold elevation of renal cysteine levels after 60 min without causing changes in renal morphology or GFR. After 35 min of renal artery occlusion and 90 min of blood reflow, animals pretreated with GSH had a much greater decline in GFR than untreated control animals. This enhancement of renal ischemic injury in GSH-treated animals was similar to that observed following administration of GSH monoethylester. We conclude that administration of GSH is the method of choice for elevation of renal GSH and that elevation of renal GSH leads to an enhanced ischemia-induced injury which is independent of the method employed to elevate renal GSH.
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PMID:Elevation of renal glutathione enhances ischemic injury. 172 Feb 57

The following study was performed to determine whether calcium channel blockers, delivered before or after an ischemic insult, were effective at reducing cyclosporine-induced exacerbation of renal ischemic injury. When cyclosporine (5 mg/kg) was administered intravenously to rats after 30 min of renal ischemia, GFR fell by 60% compared with values observed in rats subjected to ischemia alone (190 +/- 30 vs. 330 +/- 40 microliters/min/100 g; P less than 0.05). Pretreatment with verapamil (10 micrograms/kg/min delivered intravenously) prevented the fall in GFR (320 +/- 70 microliters/min 100 g), as did pretreatment with nitrendipine, 1 micrograms/kg/min (460 +/- 90 microliters/min/100 g). Verapamil was less effective if given after the ischemia-cyclosporine insult (GFR 260 +/- 90 microliters/min/100 g), and nitrendipine given at this time had no beneficial effect at all (GFR 180 +/- 10 microliters/min/100 g). The doses of calcium channel blockers used had no protective effect on renal ischemic injury alone. Blood pressure during study ranged between 105 and 119 mm Hg with minor differences between groups. Sodium and potassium excretion and urinary flow rates were similar in all groups, except for a slight increase in sodium excretion in verapamil-treated rats. These values demonstrate that calcium channel blockers ameliorate the exacerbation or renal ischemic injury induced by cyclosporine if given before but not after the ischemia-cyclosporine insult. The protective effect of these agents, used preischemia in cyclosporine-treated rats, is observed with intravenous use of the drugs at doses that have no protective effect on renal ischemic injury alone.
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PMID:Evidence that calcium channel blockade prevents cyclosporine-induced exacerbation of renal ischemic injury. 184 48


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