UMLS:C0022116 - FACTA Search

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

Using an in vivo rat model of unilateral renal ischemia, we previously showed that the expression and distribution of fibronectin (FN), a major glycoprotein of plasma and the extracellular matrix, dramatically changes in response to ischemia-reperfusion. In the distal nephron in particular, FN accumulates in tubular lumens, where it may contribute to obstruction. In the present study, we examine whether the tubular FN is the plasma or cellular form, each of which is produced by alternative splicing of a single gene transcript. We demonstrate that FN in tubular lumens does not contain the extra type III A (EIIIA) and/or the extra type III B (EIIIB) region, both of which are unique to cellular FN. It does, however, contain the V95 region, which in the rat is a component of FNs in both plasma and the extracellular matrix. Expression of FN containing EIIIA increases dramatically in the renal interstitium after ischemic injury and continues to be produced at high levels 6 wk later. V95-containing FN also increases in the interstitial space, albeit more slowly and at lower levels than FN containing EIIIA; it also persists 6 wk later. FN containing the EIIIB region is not expressed in the injured kidney. The presence of V95 but not the EIIIA or EIIIB regions of FN in tubular lumens identifies the origin of FN in this location as the plasma; tubular FN is ultimately voided in the urine. The data indicate that both plasma and cellular FNs containing the V95 and/or EIIIA regions may contribute to the pathogenesis of acute renal failure and to the repair of the injured kidney.
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PMID:Expression of fibronectin splice variants in the postischemic rat kidney. 1135 44

Postischemic acute renal failure (ARF) is common and often fatal. Cellular mechanisms include cell adhesion, cell infiltration and generation of oxygen free radicals, and inflammatory cytokine production. Hydroxy-3-methylglutaryl coenzyme A reductase inhibitors ("statins") directly influence inflammatory mechanisms. The hypothesis that ischemia-induced ARF could be ameliorated with statin treatment was investigated and possible molecular mechanisms were analyzed in a uninephrectomized rat model. Male Sprague-Dawley rats were pretreated with cerivastatin (0.5 mg/kg) or vehicle for 3 d. Ischemic ARF was induced by left renal artery clipping for 45 min, while the right kidney was being removed. After 24 h of ARF, serum creatinine levels were increased 7.5-fold in vehicle-treated control animals with ARF, compared with sham-operated animals (P < 0.005). Statin treatment reduced the creatinine level elevation by 40% (P < 0.005). Simultaneously, ischemia-induced severe decreases in GFR were significantly ameliorated by statin treatment (sham operation, 0.95 +/- 0.09 ml/min, n = 13; ischemia without treatment, 0.06 +/- 0.02 ml/min, n = 9; ischemia with statin pretreatment, 0.21 +/- 0.03 ml/min, n = 11; P < 0.001). Furthermore, statin pretreatment prevented the occurrence of tubular necrosis, with marked loss of the brush border, tubular epithelial cell detachment, and tubular obstruction in the S3 segment of the outer medullary stripe. In addition, monocyte and macrophage infiltration was almost completely prevented, intercellular adhesion molecule-1 upregulation was greatly decreased, and inducible nitric oxide synthase expression was reduced. Fibronectin and collagen IV expression was reduced, approaching levels observed in sham-operated animals. In vehicle-treated rats with ARF, mitogen-activated protein kinase extracellular activated kinase-1/2 activity was increased and the transcription factors nuclear factor-kappaB and activator protein-1 were activated. Statin treatment reduced this activation toward levels observed in sham-operated rats. The data suggest that hydroxy-3-methylglutaryl coenzyme A reductase inhibition protects renal tissue from the effects of ischemia-reperfusion injury and thus reduces the severity of ARF. The chain of events may involve anti-inflammatory effects, with inhibition of mitogen-activated protein kinase activation and the redox-sensitive transcription factors nuclear factor-kappaB and activator protein-1.
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PMID:Postischemic acute renal failure is reduced by short-term statin treatment in a rat model. 1219 73

The expression of fibronectin (FN), one of the extracellular matrix proteins, was studied in isolated renal proximal tubules in a in vivo rat model of unilateral renal ischemia without reperfusion. FN is involved in cell-extracellular matrix interactions and defective cell-extracellular matrix interactions have been hypothesized to contribute to ischemic renal failure. The expression of FN was investigated by reverse transcription-polymerase chain reaction (RT-PCR), Elisa and Western blot. Isolated proximal tubules from control and post-ischemic rat kidneys were used. ATP, intracellular calcium content, and alkaline phosphatase were also measured to describe the effects associated to 40 min of ischemia. Control tubules expressed FN. Forty minutes of ischemia promoted diminished ATP levels and phosphatase alkaline activity, and increased intracellular calcium in isolated proximal tubules. An increased abundance of FN was observed by ischemic tubules as compared with control tubules. To determine quantitatively the value of FN content, ELISA method was performed. The ischemic tubules also expressed higher amount of FN mRNA. Three amplification products were obtained from both ischemic and control proximal tubular cDNA. The relative amounts of each of the obtained products were the same, strongly suggesting that the augmentation of the FN gene transcription during ischemia is not associated to a modification in the splicing pattern. Moreover, this expression is increased after 40 min of ischemia, not followed by reperfusion.
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PMID:Fibronectin expression in proximal tubules from ischemic rat kidneys without reperfusion. 1248 21

Restoration of proximal tubular cell (PTC) integrity and function after ischemic injury involves cell proliferation and migration. Hypoxia is a known stimulus for PTC TGF-beta1 synthesis. This study examines the effect of TGF-beta1 on PTC migration. A model of PTC injury was used consisting of mechanically wounding a monolayer of HK2 cells followed by repopulation of the denuded area by time lapse photomicroscopy. Repopulation was the result of cell migration but not proliferation. Addition of TGF-beta1 led to a marked inhibition of cell migration increased expression of paxillin and vincullin and their incorporation into dense focal adhesion plaques. This was associated with increased association of focal adhesion components with the f-actin cytoskeleton. There was also increased beta3 integrin expression and increased synthesis of the matrix component fibronectin. The effect on migration and focal adhesion reorganisation was abrogated by inhibitors of the RhoA downstream target ROCK, suggesting that signaling events resulting from altered beta3 integrin expression initiate the TGF-beta1 response. These results suggest that, by inhibition of cell migration, increased expression of TGF-beta1 after ischemia delays recovery of proximal tubule structure and function. We speculate that this may contribute to permanent alteration in renal tubular function after severe ischemic injury.
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PMID:TGF-beta1-mediated inhibition of HK-2 cell migration. 1259 98

Ischemia and reperfusion cause significant alterations in the structure and functional integrity of the cerebral microvasculature. Clinical sequelae include cerebral oedema, haemorrhagic transformation with the extravasation of cellular blood elements, and possible parenchymal haemorrhage. Vascular changes originate from structural changes of the vascular wall and from interactions with blood components such as leukocytes. This leads to the activation of various pathophysiological cascades including the clotting system, its inhibitors,matrix metalloproteases, and serine proteases. This article focuses on the degradation of the microvascular basal lamina, which is formed by extracellular matrix proteins such as type IV collagen, fibronectin, and laminin. Extracellular matrix proteins are degraded by matrix metalloproteases and serine proteases. Tissue plasminogen activator (t-PA), a serine protease commonly administered for thrombolysis, activates matrix metalloproteinases in turn, amplifying local proteolytic activity. Clinical implications and possible therapeutic strategies are discussed.
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PMID:[Experimental microvascular and clotting changes--significance for acute stroke therapy]. 1259 13

Sturge-Weber syndrome (SWS) is a neurocutaneous disorder that presents with a facial port-wine stain and a leptomeningeal angioma. Fibronectin expression regulates angiogenesis and vasculogenesis and participates in brain tissue responses to ischemia and seizures. We therefore hypothesized that abnormal gene expression of fibronectin and other extracellular matrix genes would be found in SWS brain tissue and SWS port-wine skin fibroblasts. Fibronectin gene and protein expression from port-wine-derived fibroblasts were compared with that from normal skin-derived fibroblasts of four individuals with SWS using microarrays, reverse transcriptase-PCR, Western analysis, and immunocytochemistry. Fibronectin gene and/or protein expression from eight SWS surgical brain samples was compared with that in two surgical epilepsy brain samples and six postmortem brain samples using microarrays, reverse transcriptase-PCR, and Western analysis. The gene expression of fibronectin was significantly increased (p < 0.05) in the SWS port-wine-derived fibroblasts compared with that of fibroblasts from SWS normal skin. A trend for increased protein levels of fibronectin in port-wine fibroblasts was found by Western analysis. No difference in the pattern of fibronectin staining was detected. The gene expression of fibronectin was significantly increased (p < 0.05), and a trend for increased fibronectin protein expression was found in the SWS surgical brain samples compared with the postmortem controls. These results suggest a potential role for fibronectin in the pathogenesis of SWS and in the brain's response to chronic ischemic injury in SWS. The reproducible differences in fibronectin gene expression between the SWS port-wine-derived fibroblasts and the SWS normal skin-derived fibroblasts are consistent with the presence of a hypothesized somatic mutation underlying SWS.
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PMID:Increased fibronectin expression in sturge-weber syndrome fibroblasts and brain tissue. 1262 Nov 18

We tested a hypothesis that interactions between fibronectin (FN), the major extracellular matrix component, and its integrin alpha 4 beta 1 receptor is important in the development of ischemia/reperfusion injury of steatotic liver transplants. We examined the effect of connecting segment-1 (CS1) peptide-facilitated blockade of FN-alpha 4 beta 1 interaction in a well-established steatotic rat liver model of ex vivo cold ischemia followed by iso-transplantation. In this model, CS1 peptides were administered through the portal vein of steatotic Zucker rat livers before and after cold ischemic storage. Lean Zucker recipients of fatty liver transplants received an additional 3-day course of CS1 peptides after transplant. CS1 peptide therapy significantly inhibited the recruitment of T lymphocytes, neutrophil activation/infiltration, and repressed the expression of proinflammatory tumor necrosis factor-alpha and interferon-gamma. Moreover, it resulted in selective inhibition of inducible nitric oxide synthase expression, peroxynitrite formation, and hepatic necrosis. Importantly, CS1 peptide therapy improved function/histological preservation of steatotic liver grafts, and extended their 14-day survival in lean recipients from 40% in untreated to 100% in CS1-treated OLTs. Thus, CS1 peptide-mediated blockade of FN-alpha 4 beta 1 interaction protects against severe ischemia/reperfusion injury experienced otherwise by steatotic OLTs. These novel findings document the potential of targeting FN-alpha 4 beta 1 in vivo interaction to increase the transplant donor pool through modulation of marginal steatotic livers.
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PMID:Fibronectin-alpha 4 beta 1 integrin-mediated blockade protects genetically fat Zucker rat livers from ischemia/reperfusion injury. 1265 15

Current technologies make it possible to study thousands of genes simultaneously in the same biological sample - an approach termed gene expression profiling. Several techniques, including (i) differential display, (ii) serial analysis of gene expression (SAGE), (iii) subtractive hybridization and (iv) gene microarrays (Gene Chips), have been developed. Recently, gene profiling was applied in studying the mechanisms of ischemic injury and ischemic preconditioning. In the case of reversible ischemia caused by one or several brief transient episodes of complete coronary occlusion (as with ischemic preconditioning), or with a more prolonged but partial coronary ligation, many up-regulated genes were related to the "cell survival program". Protective genes included mitogen-activated protein kinase-activated protein kinase 3 (MAPKAPK 3), heat shock proteins 70, 27, 22, B-crystalline, vascular endothelial growth factor, inducible nitric oxide synthase and plasminogen activator inhibitors 1 and 2. With permanent coronary occlusion lasting from 24 h to several weeks, and resulting in a true myocardial infarction (MI), the list of up-regulated genes included those related to remodeling (e.g., collagens I and III, fibronectin, laminin) and apoptosis (Bax), while many down-regulated genes were related to major energy-generating pathways in the heart, namely, fatty acid metabolism. Gene expression profiling experiments have resulted in the discovery of two different genetic programs in the heart, namely, a protective program activated upon brief episodes of transient ischemia and an injury-related one activated in response to irreversible ischemic injury. Searching for factors turning on protective genes, and turning down injury-related ones, is a justifiable approach in developing new therapeutic strategies aimed to fight ischemic heart disease.
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PMID:Gene expression profiling--a new approach in the study of myocardial ischemia. 1282 86

Sickle red cells express adhesion molecules including integrin alpha4beta1, CD36, band 3 protein, sulfated glycolipid, Lutheran protein, phosphatidylserine and integrin-associated protein. The proadhesive sickle cells may bind to endothelial cell P-selectin, E-selectin, intercellular adhesion molecule-1 (ICAM-1), vascular cell adhesion molecule-1 (VCAM-1), CD36 and integrins leading to its activation. Monocytes also activate endothelium by releasing proinflammatory cytokines like tumor necrosis factor alpha (TNF-alpha) and interleukin 1beta (IL-1beta). Sickle monocytes also express increased surface CD11b and cytoplasmic cytokines TNFalpha and IL-1beta indicating activated state. Polymorphonuclear leukocytes (PMNs) are also activated with reduced L-selectin expression, enhanced CD64 expression and elevated levels of sL-selectin, sCD16 and elastase resulting in increased adhesiveness to the endothelium. Platelets are also activated and secrete thrombospondin (TSP) and cytokine IL-1. They also form platelet- monocytes aggregates causing endothelial cell P-selectin expression. Endothelial cell activation by these multiple mechanisms leads to a loss of vascular integrity, expression of leukocyte adhesion molecules, change in the surface phenotype from antithrombotic to prothrombotic, excessive cytokine production and upregulation of HLA molecules. Furthermore, contraction of these activated endothelial cells leads to exposure of extracellular matrix proteins, such as TSP, laminin, and fibronectin and their participation in adhesive interactions with bridging molecules from the plasma such as von Willebrand factor (vWf) released from endothelial cells, ultimately culminating in vasoocclusion and local tissue ischemia, the pathognomonic basis of vasoocclusive crisis.
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PMID:Cytokines in sickle cell disease. 1453 Jan 75

Obstructive nephropathy refers to the mechanical or functional changes in the urinary tract that interfere with normal urinary flow. Once obstruction is set, it leads to progressive renal damage that is mainly characterized with tubulointerstitial fibrosis. Here we reviewed the pathophysiology of urinary tract obstruction and indicated future therapeutic options. Following complete unilateral ureteral obstruction, there is a progressive fall in renal blood flow and glomerular filtration rate, and is a increase in intratubular pressure. These events activate the plasma and tissue renin-angiotensin systems (RAS). It has been proved that upregulated angiotensin II is one of the crucial factors those are responsible for the subsequent deleterious process. Angiotensin II induces transforming growth factor-beta, which causes overproduction of extracellular matrix (ECM) proteins like collagen, fibronectin, etc. The ECM proteins are dominantly accumulated in tubulointerstitium and result in deterioration of renal function. Along with the activation of the RAS, tissue ischemia and mononuclear leukocyte infiltration also modulate the fibrotic changes. The process from the RAS activation to renal fibrosis is observed not only in obstructive nephropathy but also in other renal diseases and is called the Final Common Pathway. Mechanical release of the obstruction is to perform in terms of the treatment, however, several promising pharmaceutical options are now under investigation.
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PMID:[Pathophysiology and clinical implication of obstructive nephropathy]. 1467 94

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