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: UMLS:C0022116 (ischemia)
91,303 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Several functional parameters were applied in an experimental model of ischemia to test the ability to localize the distribution of tubular lesions. Canine kidneys were perfused with protective solutions and rendered ischemic for definite periods. Renal function was determined during a subsequent 3-h reperfusion. The pattern and the extent of renal injury were influenced by varying the duration of ischemia and by modifying the protective solution used. The results suggest that by employing an appropriate selection of parameters it is possible to allocate renal injury to definite sections of the tubules. According to such an evaluation, under protection with HTK-solution, the proximal tubule limits the tolerance of renal ischemia. The thick ascending limb shows some vulnerability that is aggravated by disadvantageous modifications of the protective solution and that may become more pronounced in the course of reperfusion. In contrast, more distal parts of the nephron retain a remarkable reserve transport capacity after a tolerable level of ischemia.
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PMID:Postischemic diagnostic localization of tubular lesions. 231 10

Temporary renal ischemia is followed by increased DNA synthesis and cell division as the kidney restores the continuity of the renal epithelium. We sought to characterize some of the changes in proto-oncogene and growth factor expression during this proliferative response. Northern analysis of polyadenylated RNAs of kidney cortical and outer stripe of outer medullary tissue from male Sprague-Dawley rats was performed following release of renal hilar clamping of 50 minutes duration. Ischemia produced an increase in c-fos mRNA that reached a peak at one hour and declined rapidly to control levels by four hours after release of the clamp. A similar rapid increase and decrease in early growth response 1 (Egr 1) mRNA was noted. The response of these immediate early genes was typical of their response to mitogens, suggesting that they served a similar role in renal cell regeneration. Levels of c-Ki-ras and glyceraldehyde phosphate dehydrogenase mRNA were unchanged. Renal preproEGF mRNA decreased at two hours, was virtually absent by 24 hours and remained low for at least four days after ischemia. Urinary excretion of EGF fell immediately after release of ischemia and before the decline in preproEGF mRNA or SNGFR, suggesting post-transcriptional affects of ischemia on renal EGF production. EGF excretion returned to only 50% of control by day 21. Specific 125I-EGF binding increased in membrane fractions of cortex, outer medulla and inner medulla as early as 24 hours after release of the clamp. Cortical 125I-EGF binding increased in the proximal tubule but not in the glomerulus.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Changes in gene expression after temporary renal ischemia. 236 5

To determine the selective effect of microfilament disruption on both cellular structure and function, microfilament-specific doses of cytochalasin D (10 microM) were used in an isolated perfused kidney system. Structurally, cytochalasin D resulted in extensive disruption of the apical surface with blebbing, vacuolization, and patchy loss and fusion of microvilli. Functionally, cytochalasin D resulted in an initial decrease in glomerular filtration rate (300.8 +/- 29.9 vs. 541.6 +/- 51 microliters.min-1.g-1, P less than 0.05) with subsequent stabilization throughout the duration of the perfusion. In contrast, the tubular reabsorption of sodium decreased significantly in a linear fashion from 97.1 +/- 0.7 to 64.3 +/- 7.0% over the duration of the perfusion. Similarly, the tubular reabsorption of lithium decreased linearly from 74.8 +/- 2.6%, before the addition of cytochalasin, to 33.6 +/- 6.8% by the end of the perfusion. Correlation of the decrements in percent tubular reabsorption of sodium and lithium for individual kidneys was 0.87 (P less than 0.01), suggesting the effect of microfilament disruption on tubular reabsorption of sodium was localized primarily to the proximal tubule. Because ischemic injury is characterized by time-dependent structural alterations in the apical membrane of proximal tubule cells, we set out to determine whether microfilament disruption occurs during ischemic acute renal failure. Utilizing indirect immunofluorescence with an anti-actin antibody, control kidneys demonstrated intact circumferential apical immunofluorescence representing brush-border and terminal web actin staining. Fifteen minutes of ischemia resulted in multiple large gaps in the terminal web, and 50 min of ischemia caused diffuse redistribution of actin immunofluorescence throughout the cytoplasm.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Role of microfilaments in maintenance of proximal tubule structural and functional integrity. 238 6

The effect of 45-min clamping of the renal artery was studied in the conscious uninephrectomized rat to reproduce the syndrome of hemodynamically mediated acute renal failure in humans after a single ischemic insult. Twenty-four hours after ischemia, creatinine clearance was reduced by 90%, whereas fractional excretion of sodium was markedly increased; over the subsequent 5 days, both values returned to normal. The animals were nonoliguric. Fractional clearances of graded sizes of neutral dextrans (radii 20-44 A), employed to detect transtubular backleak of inulin, were not significantly different 24 or 48 h postischemia from those in normal animals. The implication that the normal fractional dextran clearances excluded tubular backleak was tested directly by microinjecting [methoxy-3H]inulin into the proximal tubule. In most tubules injected, the recovery of radioactivity in the urine was markedly lower 24 and 48 h postischemia than that in normal rats; in a few injected tubules of postischemic kidneys, recovery was not different from that in normal animals. The low recovery of radioactive inulin was accounted for, at least in part, by transtubular backleak, as shown in experiments in which rats subjected to renal ischemia were cross-transfused with normal animals. These studies indicate that, despite the normal fractional dextran clearances, most tubules were severely injured as shown by tubule backleak of inulin.
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PMID:Course and pathogenesis of postischemic acute renal failure in the rat. 245 26

Total renal ischemia for various time intervals (0-50 min) resulted in the rapid and duration-dependent redistribution of polarized membrane lipids and proteins in renal proximal tubule cells. Following only 15 min of ischemia, apical membrane enrichment of NaK-ATPase, normally a basolateral membrane (BLM) enzyme, had increased (1.6 +/- 0.6 vs. 2.9 +/- 1.2, P less than 0.01). In vivo histochemical localization of NaK-ATPase showed reaction product throughout the apical microvillar region. PTH-stimulatable adenylate cyclase, another BLM protein, was also found in ischemic but not control apical membrane fractions. One dimensional SDS-PAGE showed four bands, present in control BLM and ischemic apical membranes, which could not be found in control apical membrane fractions. Immunohistochemical localization of leucine aminopeptidase (LAP) showed the enzyme was limited to the apical domain in control cells. Following ischemic injury (50 min), LAP staining could be seen within the cell and along the BLM. Following 24 hr of reperfusion, the BLM distribution of LAP was further enhanced. With cellular recovery from ischemic injury (5 days), LAP was again only visualized in the apical membrane. Duration-dependent alterations in apical and BLM lipids were also observed. Apical sphingomyelin and phosphatidylserine and the cholesterol-to-phospholipid ratio decreased rapidly while apical phosphatidylcholine and phosphatidylinositol increased. Taken together, these results indicate renal ischemia causes rapid duration-dependent reversible loss of surface membrane polarity in proximal tubule cells.
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PMID:Characterization of ischemia-induced loss of epithelial polarity. 246 76

Calcium channel blockers have been reported to preserve renal function when given prophylactically in animal models of acute renal failure (ARF), but the mechanism by which this effect occurs is unknown. We report that nitrendipine (NTR) ameliorates the decline in endogenous creatinine clearance when administered before to clamp-induced ischemia in rats (NTR + clamp, 0.21 +/- 0.06 ml/min; clamp alone, 0.13 +/- 0.04 ml/min, p less than 0.05). To determine whether this protective effect involves the proximal tubule, we compared the uptake of phosphate by brush border membrane (BBM) vesicles in NTR-pretreated ARF rats and in ARF rats pretreated with vehicle alone. A comparison of vehicle-pretreated/sham-operated and vehicle-pretreated/ARF rats served as a control. The initial uphill phase of Na+ gradient-dependent phosphate transport was significantly greater in NTR/ARF rats as compared with vehicle/ARF rats. Pretreatment with NTR did not affect BBM transport of D-glucose or proline. We conclude that NTR has a modest protective effect on overall renal function, and that preservation of proximal tubular function is probably part of this effect.
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PMID:Modifications in proximal tubular function induced by nitrendipine in a rat model of acute ischemic renal failure. 248 64

Experiments were performed on rats to examine the cause of the vascular congestion that accompanies renal ischemia, and the potential role of cell swelling in its generation. Renal function and gross morphology were examined after reflow, whereas tissue morphometry was performed both before and after reflow in kidneys. Small doses of mannitol applied into the renal artery just before ischemia greatly reduced the incidence of vascular congestion and the depression of renal function. During ischemia the outwardly directed swelling of the proximal tubule depleted the interstitial and vascular space of the cortex and outer medullary outer stripe and the inwardly directed swelling of the thick ascending limb occluded the lumen. Mannitol reduced cell swelling, lessened the depletion of the interstitial and vascular space and eliminated the occlusion of the thick ascending limb. It is proposed that the loss of interstitial and vascular fluid during ischemia is the cause of the vascular congestion, which, in turn, is responsible for the poor perfusion and impaired renal function seen after ischemia.
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PMID:Vascular congestion in ischemic renal failure: the role of cell swelling. 249 26

Ischemic injury results in proximal tubule (PT) dysfunction and loss of surface membrane (SM) polarity. Since epithelial vectorial transport requires SM polarity, we set out to determine if correction of renal cortical PT dysfunction following ischemia was dependent on the reestablishment of SM polarity. Acute renal failure was induced using a bilateral 50-min pedicle clamp. Serum creatinine and fractional sodium excretion were maximal on day 1, remained elevated on day 3, and returned toward base line by day 8. PT cellular ultrastructure was normal by day 3. Despite rapid morphological recovery, ischemia resulted in a prolonged defect in glucose reabsorption. The delayed recovery of normal glucose handling closely paralleled the slow normalization of apical membrane lipid polarity. Na+-K+-ATPase polarity was also lost secondary to ischemia as demonstrated cytochemically and biochemically by the redistribution of Na+-K+-ATPase to the apical membrane. The time required to reestablish normal Na+-K+-ATPase polarity (8 days) paralleled the recovery of normal PT Na+ reabsorption (8 days), as assessed by fractional lithium clearances. This finding supports the hypothesis that apical Na+-K+-ATPase is in part responsible for reduced Na+ reabsorption following ischemic injury. In summary, these data suggest that functional recovery of PT glucose and Na+ reabsorption following a reversible ischemic insult requires not only morphological recovery, but also the reestablishment of surface membrane lipid and protein polarity.
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PMID:Epithelial polarity following ischemia: a requirement for normal cell function. 253 79

Ischemia results in the marked reduction of renal proximal tubule function which is manifested by decreased Na+ and H2O reabsorption. In the present studies the possibility that altered Na+ and H2O reabsorption were due to ischemia-induced loss of surface membrane polarity was investigated. Following 15 min of renal ischemia and 2 hr of reperfusion, proximal tubule cellular ultrastructure was normal. However, abnormal redistribution of NaK-ATPase to the apical membrane domain was observed and large alterations in apical membrane lipid composition consistent with loss of surface membrane polarity were noted. These changes were associated with large decreases in Na+ (37.4 vs. 23.0%, P less than 0.01) and H2O (48.6 vs. 36.9%, P less than 0.01) reabsorption at a time when cellular morphology, apical Na+ permeability, Na+-coupled cotransport, intracellular pH and single nephron filtration rates were normal. We propose that the abnormal redistribution of NaK-ATPase to the apical membrane domain is in part responsible for reduced Na+ and H2O reabsorption following ischemic injury.
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PMID:Loss of epithelial polarity: a novel hypothesis for reduced proximal tubule Na+ transport following ischemic injury. 254 Dec 48

A viable suspension of proximal tubules that had sustained an in vivo ischemic injury was harvested, and cellular integrity and viability were determined. The histopathological appearance of this preparation has characteristic features of an ischemic injury and ATP levels were comparable to those observed with nuclear magnetic resonance spectroscopy in vivo. Sprague-Dawley rats were subjected to 45 min of bilateral renal artery ischemia and the kidneys were allowed to reperfuse for either 15 min, 2 h, or 24 h before the harvest of the proximal tubule suspension. There was a decrease in base-line oxygen consumption from 34 +/- 0.8 nmol O2.min-1.mg protein-1 to 22 +/- 0.6 at 15 min of reflow. This decline in oxygen consumption persisted during the first 2 h of reflow and returned to control levels by 24 h. Residual respiration in the presence of ouabain was similar at all reflow intervals suggesting that the decrease in basal O2 consumption was related to decreased Na+-K+-ATPase in situ. In contrast, there was no significant difference in Na+-K+-ATPase activity when determined chemically under Vmax conditions in all experimental groups.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Metabolic alterations in proximal tubule suspensions obtained from ischemic kidneys. 255 Nov 86


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