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

Renal tubular obstruction is an important contributor to the pathophysiology of acute renal failure. Based on the previous findings of the role played by arginine-glycine-aspartic acid (RGD) recognizing integrins in tubular obstruction, this study examined the effect of RGD peptides on the course of ischemic acute renal failure in rats. For in vivo studies, animals were subjected to 45 minutes of unilateral renal ischemia with contralateral nephrectomy, and cyclic RGD peptides or a linear biotinylated RGD peptide were injected systemically after the release of renal artery clamp. In vitro studies compared the potency of the peptides in inhibiting BS-C-1 cell-matrix and cell-cell adhesion. Two novel cyclic RGD peptides utilized in these studies showed different inhibitory potency in preventing cell-matrix adhesion: cyclic RGDDFV was a highly potent in vitro inhibitor of BS-C-1 cell-matrix adhesion, whereas cyclic RGDDFLG was less potent. In cell-cell adhesion assays, however, both peptides were equipotent. Despite the differences in inhibiting cell-matrix adhesion, a single systemic administration of either peptide improved creatinine clearance postoperatively and accelerated recovery of renal function with a rank order: cyclic RGDDFV > or = RGDDFLG >> RDADFV (inactive control). These findings represent the first in vivo demonstration of the effectiveness of cyclic RGD peptides in ameliorating ischemic acute renal failure, and suggest that in this setting RGD peptides predominantly inhibit cell-cell adhesion, whereas inhibition of cell-matrix adhesion is of lesser significance.
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PMID:Cyclic RGD peptides ameliorate ischemic acute renal failure in rats. 786 98

Based on the previous demonstration of a renoprotective effect of arginine-glycine-aspartic acid (RGD) peptides in acute renal failure, experiments were designed to test the distribution and renal accumulation of the peptide. To accomplish this goal, in this study, RGD peptide was radiolabeled and its biodistribution and renal accumulation was determined in rats with ischemic acute renal failure (ARF). 99mTc-RGD with or without 111In-DTPA were injected intravenously in control and ARF rats. Various organs were dissected at different times after injection and subjected to gamma-scintillation counting and autoradiography (ARG). Blood clearance of 99mTc-RGD was rapid, with t1/2 < 10 min, and unchanged in ARF compared with control rats. Kidneys retained the largest portion of the injected dose in both control and ARF rats, as detected using scintillation counting and whole-body ARG (10.56 +/- 1.05% and 10.12 +/- 3.16% injected dose/g wet weight, respectively). Renal ARG revealed a significant increase in binding to the cortex in ARF kidneys, compared with that of control kidneys. Given the differences in renal blood flow and GFR in control and postischemic kidneys, the next series of experiments was performed with two radiopharmaceuticals, 99mTc-RGD and 111In-DTPA. The ratio of 99mTc-RGD:111In-DTPA was increased more than three-fold in ARF kidneys compared with control kidneys (2.7 +/- 0.15 versus 0.8 +/- 0.19, respectively). The results indicate that (1) RGD peptide undergoes a rapid clearance predominantly via the renal route; (2) despite a significant reduction in the renal perfusion, 99mTc-RGD peptide accumulates in the postischemic kidney; (3) this is consistent with the hypothesis on the involvement of RGD-recognizing integrins in the development of tubular obstruction in renal ischemia.
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PMID:Biodistribution and clearance of 99mTc-labeled Arg-Gly-Asp (RGD) peptide in rats with ischemic acute renal failure. 898 49

Renal expression of osteopontin is enhanced in the setting of acute ischemic injury. Because of the parallels that exist between recovery from renal ischemia and renal development, we characterized the role that osteopontin plays during metanephrogenesis in the rat. Osteopontin mRNA is present in kidneys obtained from rat embryos as early as embryonic day 13 (E13). Immunohistochemical staining of metanephroi obtained from E16 rat embryos and metanephroi obtained from E13 embryos and cultured for 3 days in vitro demonstrated that osteopontin is expressed both in the developing nephron and in the ureteric bud. Addition of anti-osteopontin antibodies to metanephric organ cultures results in failure of the metanephric blastema to undergo normal tubulogenesis. Addition of the arginine-glycine-aspartic acid-containing peptide, cyclo-RGDfV, or the anti-alpha(v)beta3-integrin antibody, LM609, to cultures has a similar effect. These findings establish that osteopontin is produced within the rat metanephros during development in vivo and suggest that the binding of osteopontin to the alpha(v)beta3-integrin is required for tubulogenesis to occur in vitro. Blastemal cells within metanephroi cultured in the presence of OP199 manifest increased apoptosis compared with controls. It is possible that osteopontin plays an important anti-apoptotic role during the process of metanephric blastema condensation that is a prerequisite for the formation of nephrons in vivo.
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PMID:Metanephric osteopontin regulates nephrogenesis in vitro. 914 47

The consumption of oxygen by slices of kidney tissue of dogs made hypertensive by the Goldblatt technique was studied manometrically. The respiration of the ischemic kidney tissue was found to be much less than that of the normal kidney. Further, a marked reduction in oxidizing ability, as measured by the oxygen uptake and ammonia formation in the presence of the added amines and amino acids, tyramine, isoamylamine, dl-alanine, and l-aspartic acid, was observed. Extracts of the kidneys were made and tested for amine oxidase, amino acid oxidase, and polyphenol oxidase activity by measuring the increased oxygen consumption and ammonia formation in the presence of the substrates listed above with the addition of l-epinephrine, histamine, and dl- and l-dihydroxyphenylalanine. The preparations from ischemic kidneys of dogs and rabbits showed much lower activity. Animals with varying degrees of constriction of the renal arteries and therefore varying degrees of renal ischemia were prepared and studied. The results with these animals suggested a direct relationship between the degree of renal ischemia and the decrease in oxidizing power of the tissue. The product of the enzymic oxidation of tyramine was identified as p-hydroxyphenylacetaldehyde by isolation as the dinitrophenylhydrazone of p-hydroxyphenylacetaldehyde.
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PMID:THE METABOLISM OF THE ISCHEMIC KIDNEY : I. THE RESPIRATION AND THE OXIDASE ACTIVITY OF THE ISCHEMIC KIDNEY. 1987 11

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