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)

In proximal tubular cells ischemia is known to result in the redistribution of apical and basolateral domain-specific lipids and proteins into the alternate surface membrane domain. Since tight junctions are required for the maintenance of surface membrane polarity, the effect of ischemia on tight junction functional integrity was investigated. In vivo microperfusion of early loops of proximal tubules with ruthenium red (0.2%) in glutaraldehyde (2%) was used to gain selective access to and outline the apical surface membrane. Under control situations ruthenium red penetrated less than 10% of the tight junctions. After 5, 15, and 30 min of ischemia, however, there was a successive stepwise increase in tight junction penetration by ruthenium red to 29, 50, and 62%, respectively. This was associated with the rapid duration-dependent redistribution of basolateral membrane domain-specific lipids and NaK-ATPase into the apical membrane domain. Taken together, these data indicate that during ischemia proximal tubule tight junctions open, which in turn leads to the lateral intramembranous diffusion of membrane components into the alternate surface membrane domain.
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PMID:Ischemia-induced loss of epithelial polarity. Role of the tight junction. 255 26

Ischemic insult has been considered a cause of cellular injuries under certain circumstance, such as the disturbance of energy metabolism, the alternation of calcium homeostasis, the production of oxygen radical and the release of lysosomal protease. The present study was designed to clarify the pathophysiological effects of coenzyme Q10 (CoQ10), diltiazem, superoxide dismutase (SOD) and urinastatin on the development and progression of ischemic acute renal failure (IARF) of the rat. At 24 hours after reflow following 45 minutes ischemia, serum urea nitrogen, creatinine and fractional excretion of sodium were 99.3 mg/dl, 3.14 mg/dl, 5.95% respectively, in non-treated IARF rats. Renal ATP content was reduced to 0.91 micrograms/mg. prot. from 10.59 micrograms/mg. prot. at 10 minutes after ischemic insult, and remained at almost the same level throughout the entire 45 minutes ischemia. Although the subsequent blood reflow resulted in the recovery of ATP content, it was up to 50% of normal level at 24 hours after reflow following 45 minutes ischemia. During the ischemic period, the pathological changes were mild, whereas, after reflow, tissue involvement was mainly localized in the S3 segment of the proximal tubule. Major alteration were the loss of brush border, high amplitude swelling of mitochondria with matrical densities and fragmentation of the epithelial cell. At 24 hours after reflow, it was observed that renal function was superior in IARF rats treated with CoQ10, diltiazem, SOD and urinastatin. The treated rats also had higher ATP contents and showed less pathological changes than non-treated rats. Among these inhibitory agents, diltiazem exerted the most reliable effect. From these results, it was concluded that IARF was obviously caused by such pathophysiological mechanisms as mentioned above. Especially, Ca influx into the cells is one of the most important factors on pathogenesis of IARF.
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PMID:[Pathophysiological mechanism of ischemic acute renal failure: protective effect of coenzyme Q10, Ca channel blocker, superoxide dismutase and protease inhibitor against ischemic acute renal failure]. 274 96

Lipid peroxidation (LP) of cell membranes by oxygen free radical species (OFRS) during reflow may be a mechanism for progressive proximal tubule injury after ischemia. We examined the relationship between tubule function and an endproduct of LP, malondialdehyde (MDA), in two in vitro models using a suspension of rat proximal tubule segments (PTS). Exposure of PTS to tert-butyl hydroperoxide (tBHP), a potent oxidant, induced dose-dependent decrements in the PTS respiration (QO2) but was associated with a progressive increase in MDA. The relationship between increasing doses of tBHP, QO2, and MDA content, as well as that between MDA and QO2 were highly correlated (r greater than or equal to 0.89, n = 6). Dithiothreitol (1 mM), a sulfhydryl reagent, prevented the tBHP-induced changes in both QO2 and LP. In the second model, 45-min O2 deprivation followed by 30 min of reoxygenation produced similar decrements in QO2 as did 0.75 mM tBHP but without a rise in MDA (n = 9). Mitochondria isolated from ischemic PTS had a 49 +/- 8.2% decrement in state III respiration (P less than 0.006, n = 4) but their MDA content was unchanged. Furthermore, allopurinol, superoxide dismutase, and catalase, agents that reduce tissue OFRS, did not attenuate ischemic tubular injury (n = 9). These results suggest that OFRS do not mediate transient O2 deprivation injury to the proximal tubule.
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PMID:Role of oxygen free radical species in in vitro models of proximal tubular ischemia. 275 Sep 16

The rate of collapse of a proton gradient across the apical membrane of rat kidney proximal tubule increases upon treatment with calcium, mercuric chloride and mellitin, substances which activate phospholipase A2. Treatment with phospholipase A2 or oleic acid also enhances the rate of proton gradient dissipation. Membrane water permeability is not affected. This phenomenon may have implications in pathological states arising from ischemia or toxic exposure.
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PMID:Phospholipase activation, free fatty acids and the proton permeability of a biological membrane. 283 61

To determine if ischemia induces alterations in renal proximal tubule surface membranes, brush border (BBM) and basolateral membranes (BLM) were isolated simultaneously from the same cortical homogenate after 50 min of renal pedicle clamping. Ischemia caused a selective decrease in the specific activity of BBM marker enzymes leucine aminopeptidase and alkaline phosphatase, but did not effect enrichment (15 times). Neither specific activity nor enrichment (10 times) of BLM NaK-ATPase was altered by ischemia. Contamination of BBM by intracellular organelles was also unchanged, but there was an increase in the specific activity (41.1 vs. 60.0, P less than 0.01) and enrichment (2.3 vs. 4.3, P less than 0.01) of NaK-ATPase in the ischemic BBM fraction. Ischemia increased BLM lysophosphatidylcholine (1.3 vs. 2.5%, P less than 0.05) and phosphatidic acid (0.4 vs. 1.3%, P less than 0.05). Ischemia also decreased BBM sphingomyelin (38.5 vs. 29.6%, P less than 0.01) and phosphatidylserine (16.1 vs. 11.4%, P less than 0.01), and increased phosphatidylcholine (17.2 vs. 29.7%, P less than 0.01), phosphatidylinositol (1.8 vs. 4.6%, P less than 0.01), and lysophosphatidylcholine (1.0 vs. 1.8%, P less than 0.05). The large changes in BBM phospholipids did not result from new phospholipid synthesis, since the specific activity (32P dpm/nmol Pi) of prelabeled individual and total phospholipids was unaltered by ischemia. We next evaluated if these changes were due to inability of ischemic cells to maintain surface membrane polarity. Cytochemical evaluation showed that while NaK-ATPase could be detected only in control BLM, specific deposits of reaction product were present in the BBM of ischemic kidneys. Furthermore, using continuous sucrose gradients, the enzymatic profile of ischemic BBM NaK-ATPase shifted away from ischemic BLM NaK-ATPase and toward the BBM enzymatic marker leucine aminopeptidase. Taken together, these data suggest that NaK-ATPase activity determined enzymatically and cytochemically was located within ischemic BBM. We propose that ischemia impairs the ability of cells to maintain surface membrane polarity, and also results in the accumulation of putative calcium ionophores.
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PMID:Ischemia induces partial loss of surface membrane polarity and accumulation of putative calcium ionophores. 300 Nov 41

We have examined the effects of 25 min of ischemia in the isolated erythrocyte-perfused rat kidney (IEPK). We have previously shown that, in this model, perfusate flow rate is close to blood flow rates in vivo and morphology is normal. The functional and morphological consequences of both warm ischemia (at 37 degrees C) and ischemia induced during mild hypothermia (27 degrees C) were compared. (1) Warm ischemia resulted in a 51% increase in renal vascular resistance (RVR) during the reflow period, while glomerular filtration rate (GFR) was reduced to 24% of control levels. (2) Kidneys subjected to warm ischemia showed marked morphological damage localized to the proximal tubule. There was dilatation of the proximal segments and widespread loss of the proximal brush border due both to shedding into the lumen and interiorization into the cell. In contrast to the proximal tubular damage, the cells of the medullary thick ascending limb segments were intact. However, the lumena of many of these segments were filled with cytoplasmic blebs and necrotic cell debris. There was also pronounced vascular congestion of the capillary plexus in the inner stripe of the outer medulla. (3) Hypothermia to 27 degrees C resulted in almost complete protection against ischemic injury: RVR and GFR were not different from control values. Also, kidneys subjected to cold ischemia showed only isolated areas of mild brush border damage; no evidence of tubular obstruction or vascular congestion was present. (4) Thus, warm ischemia in the IEPK results in functional and morphological effects comparable to those found in vivo. Post-ischemic vasoconstriction as well as medullary congestion occur in the absence of systemic hormones and renal nerves. These consequences of ischemia are prevented by modest hypothermia.
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PMID:Ischemia in the isolated erythrocyte-perfused rat kidney. Protective effect of hypothermia. 324 34

The 40-minute infusion of norepinephrine (NE) into the renal artery of dogs produces a reversible ischemic model of acute renal failure. While the physiology of this model has been extensively studied, no complete description of the pathology exists. This study uses light microscopy and transmission electron microscopy to describe and quantitate the structural and ultrastructural changes which occur in the kidneys of dogs 1, 3, and 24 hours after the intrarenal infusion of 0.75 mg/kg/minute of NE. One hour after a 40-minute NE infusion the majority of convoluted and straight proximal tubules showed apical blebs, loss of brush border, microvillar whorl formation, and mitochondrial condensation and high-amplitude swelling with flocculent densities. Necrotic cells were occasionally seen at 1 hour. The injury was progressive after 3 hours and by 24 hours animals had either complete or partial patchy necrosis of all regions of the proximal tubule. The percentages of injured and necrotic proximal tubules in outer, mid-, and inner cortical regions are presented. We conclude that the extent and pattern of injury seen after NE infusion differs significantly from the renal artery clamping model of ischemia.
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PMID:Morphology of norepinephrine-induced acute renal failure in the dog. 370 79

Two distinct types of injury, cytoplasmic edema and cell fragmentation occur in the S3 segment of the proximal tubule in isolated hypoxic perfused rat kidneys (Krebs-albumin medium gassed without O2). The proportion of S3 tubules with fragmentation strongly correlated with the GFR and urine output during the perfusion, and approached 100% when the GFR was increased by high perfusion pressure. Conversely, the fragmentation lesion was absent and the edema lesion extensive when tubular transport was inhibited by perfusion with hyperoncotic medium to prevent glomerular filtration or by addition of ouabain (10(-2) M) to the perfusate. Polyene antibiotics increase membrane permeability and thus the work of active electrolyte transport. Perfusion with amphotericin (3 X 10(-5) M) or nystatin (200 U/mliter) in oxygenated medium also produced fragmentation in S3. The lesion was prevented in the non-filtering kidney. Ouabain completely eliminated the cell fragmentation due to nystatin and significantly reduced that due to amphotericin. These results suggest that the injury of cell fragmentation is enhanced by transport activity and diminished when transport is inhibited. The edema lesion appears fundamentally different and more akin to lesions described in ischemia where tubular flow is absent, active transport is diminished, and the morphologic changes appear related to loss of cell volume regulation. The type of hypoxic damage exhibited by proximal tubular S3 segments may therefore be conditioned by active ion transport of tubular cells.
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PMID:Transport-dependent cell injury in the S3 segment of the proximal tubule. 372 25

This study examined the effects on proximal tubule morphology of blocking single nephrons with paraffin wax for one day, one week, or one month in the rat. Proximal tubule lumens were blocked with a short column of wax using micropuncture. Chronically blocked and control (normal) tubules were fixed by either intravascular or intraluminal perfusion of glutaraldehyde solution. Proximal tubule segments downstream to the wax block were examined by light and transmission electron microscopy. Intraluminal Alcian blue dye, serial sectioning, and nephron microdissection techniques were used to identify nephrons. One day after obstruction, all proximal tubule cells downstream to the block were injured. Some recovery was seen. S1 and S2 segments showed more severe damage than S3 segments. Alcian blue, which normally is excluded from cells, entered the cytoplasm of some damaged S1-S2 cells. After one week of obstruction, the tubule appeared to have reconstituted itself, but cells were less differentiated than normal. One month after obstruction, blocked tubules were atrophied. Tubule cells were simplified and were surrounded by a thickened basement membrane. The results suggest that prolonged proximal tubule blockade produces injury and atrophy of the proximal tubule probably due to ischemia and interruption of normal reabsorptive activity.
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PMID:Proximal tubule morphology after single nephron obstruction in the rat kidney. 382 Sep 34

The topography of renal injury after ischemia-reflow was studied in intact rats by clamping the right renal artery for variable periods of time and examining the histologic appearance of the kidney in large 1-mu plastic sections. As reported by others, the straight portion of the proximal tubule (S3) was especially susceptible to ischemia-reflow injury. The pattern of focal necrosis produced in S3 by short (15-30-minute) and longer (45-60-minute) periods of arterial occlusion appeared related to gradients to oxygenation during reflow, in that more extensive injury was seen in areas remote from blood vessels, while perivascular tubules were protected. A similar pattern was seen in S1 and S2 after a longer period (45-60-minutes) of ischemia, which produced extensive but incomplete necrosis in these convoluted segments, with protected tubules lying within zones surrounding arcuate and interlobular arteries. The immediate postglomerular portion of S1, a tubular segment normally well supplied with oxygen, was an exception to this rule. Selective necrosis limited to this portion of the nephron appeared after only 15-30 minutes of ischemia, recalling the special sensitivity of S1 cells to inhibition of mitochondrial respiration. These results suggest that in different segments of the proximal tubule, injury after ischemia-reflow is determined not only by changes that occur during complete ischemia but also by the adequacy of oxygenation during the reflow period.
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PMID:Topography of focal proximal tubular necrosis after ischemia with reflow in the rat kidney. 395 69


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