UMLS:C0920646 - FACTA Search

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Query: UMLS:C0920646 (renal ischemia)
2,515 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

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

Rat kidneys undergoing tubular regeneration after ischaemic injury have been examined with regard to EGF, EGF receptor and vimentin, using immunohistochemical techniques. Renal ischaemia was induced in male Sprague-Dawley rats by 35-min clamping of renal arteries. Groups (n = 4-6) of experimental animals were killed at different time intervals (12, 24, 48, 72 h, 7 and 14 days) after reperfusion. One hour before sacrifice, each rat received i.p. 200 mg/kg 5-bromo-2'-deoxyuridine (BrdU) for the immunocytological demonstration of DNA synthesis. Renal necropsies were processed to reveal by immunohistochemistry EGF, EGF receptor, vimentin, and BrdU incorporated into DNA of S-phase cells. Tubular necrosis particularly involved proximal straight tubules in the outer stripe of the outer medulla and was followed by tubular regeneration, with a peak of cell proliferation at 48-72 h and an apparent dedifferentiation of tubular epithelium. As soon as 12 h after ischaemia, there was a substantial reduction of EGF immunostaining and the incidence of distal tubules showing EGF immunoreactivity reached a nadir at 48 h. In control kidneys, EGF receptor was mostly immunolocalized in proximal tubules although juxtaglomerular cells also exhibited immunolabelling. EGF receptor immunostaining in tubular epithelium showed no major change during the episode of tubular necrosis (12-24 h) but disappeared in tubular profiles undergoing regenerative hyperplasia (48-72 h). No vimentin immunostaining was found in tubules of control kidneys. Tubular epithelium remained mostly vimentin negative during the early phase of tubular necrosis/regeneration (12-72 h). By contrast, 7 days after ischaemia numerous dedifferentiated tubules expressed vimentin. In conclusion, tubular regeneration after ischaemia is associated with a typical sequence of transient events: (1) reduction of EGF immunostaining; (2) disappearance of EGF receptors during the mitogenic response; (3) expression of vimentin in tubular epithelium, and (4) return to a normal appearance.
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PMID:Renal tissue expression of EGF and EGF receptor after ischaemic tubular injury: an immunohistochemical study. 806 59

In order to estimate a regenerative response in the early phase after renal ischemia-reperfusion in rat, we examined the time course of the activation of epidermal growth factor receptor (EGFR) as a response of signal transduction pathway after 45 min ischemia in kidney. The activation of EGFR was observed 5-30 min after the start of reperfusion. Simultaneously, superoxide anion/hydrogen peroxide generated in the mitochondrial fraction was elevated during the same period. On the other hand, the level of EGF decreased in a time-dependent manner. These results suggested that superoxide anion/hydrogen peroxide generated during the ischemia-reperfusion other than EGF could act as an activator for the EGFR. In summary, the activation of EGFR is important as a regenerative response at an early stage after the start of reperfusion in ischemic kidney.
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PMID:Activation of epidermal growth factor receptor in the early phase after renal ischemia-reperfusion in rat. 993 60

The role of EGF in the evolution of renal lesions after injury is still controversial. To determine whether the EGF expression is beneficial or detrimental, we generated transgenic mice expressing a COOH-terminal-truncated EGF-R under the control of the kidney-specific type 1 gamma-glutamyl transpeptidase promoter. As expected, the transgene was expressed exclusively at the basolateral membrane of proximal tubular cells. Under basal conditions, transgenic mice showed normal renal morphology and function. Infusion of EGF to transgenic animals revealed that the mutant receptor behaved in a dominant-negative manner and prevented EGF-signaled EGF-R autophosphorylation. We next evaluated the impact of transgene expression on the development of renal lesions in two models of renal injury. After 75% reduction of renal mass, tubular dilations were less severe in transgenic mice than in wild-type animals. After prolonged renal ischemia, tubular atrophy and interstitial fibrosis were reduced in transgenic mice as compared with wild-type mice. The beneficial effect of the transgene included a reduction of tubular cell proliferation, interstitial collagen accumulation, and mononuclear cell infiltration. In conclusion, functional inactivation of the EGF-R in renal proximal tubular cells reduced tubulo-interstitial lesions after renal injury. These data suggest that blocking the EGF pathway may be a therapeutic strategy to reduce the progression of chronic renal failure.
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PMID:Targeted expression of a dominant-negative EGF-R in the kidney reduces tubulo-interstitial lesions after renal injury. 1090 38