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)

Acute renal failure (ARF) is related to reversible tubular necrosis, usually caused by ischemia or toxic substances. Our knowledge of the pathophysiology of ARF stems from the study of animal models which reproduce either an ischemic or a toxic form of ARF. Classical studies using microdissection and micropuncture have characterized the salient mechanisms of ARF: vascular compromise with hypoperfusion and decrease in glomerular filtration rate, and tubular insult with cell necrosis and high intratubular pressure. More recent studies have emphasized the cellular and molecular events occurring during the course of ARF, including changes in cytoskeleton and matrix proteins, apoptosis and the role of Heat Shock Proteins. Endothelin and growth factors such as epidermal growth factor or hepatocyte growth factor seem to be important mediators in the regeneration phase of ARF. In various animal models, EGF, HGF or antagonists of endothelin receptors have a protective effect on renal function. These findings may be of clinical relevance, and suggest future therapeutic approaches in the treatment of ARF.
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PMID:[Experimental models of acute kidney failure]. 756 87

Using a rat model of ischemia/reperfusion injury, we demonstrate here that HGF is cardioprotective due to its antiapoptotic effect on cardiomyocytes. Following transient myocardial ischemia and reperfusion, c-Met/HGF receptor expression rapidly increased in the ischemic myocardium, an event accompanied by a dramatic increase in plasma HGF levels in the infarcted rats. When endogenous HGF was neutralized with a specific antibody, the number of myocyte cell deaths increased markedly, the infarct area expanded, and the mortality increased to 50%, as compared with a control group in which there was no mortality. Plasma from the myocardial infarcted rats had cardioprotective effects on primary cultured cardiomyocytes, but these effects were significantly diminished by neutralizing HGF. In contrast, recombinant HGF administration reduced the size of infarct area and improved cardiac function by suppressing apoptosis in cardiomyocytes. HGF rapidly augmented Bcl-xL expression in injured cardiomyocytes both in vitro and in vivo. As apoptosis of cardiomyocytes is one of the major contributors to the pathogenesis in subjects with ischemia/reperfusion injury, prevention of apoptosis may prove to be a reasonable therapeutic strategy. Supplements of HGF, an endogenous cardioprotective factor, may be found clinically suitable in treating subjects with myocardial infarction.
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PMID:Myocardial protection from ischemia/reperfusion injury by endogenous and exogenous HGF. 1112 Jul 58

This study was conducted to determine the influence of hepatic ischemia and reperfusion (HIR) injury on liver regeneration and the effect of the deletion variant of hepatocyte growth factor (dHGF) under these conditions. Male Sprague-Dawley rats were subjected to 60 minutes of total hepatic ischemia, and two-thirds hepatectomy was performed just before reperfusion. Animals received intravenous administration of either vehicle buffer (vehicle control group) or dHGF (1 mg/kg) (HGF group) at the end of the period of hepatic ischemia and again 6 hours after reperfusion. At 8 hours after hepatectomy, plasma HGF levels in the vehicle control group were significantly lower than those in the nonischemic controls. Plasma aspartate transaminase levels in the vehicle control group reached 3,462 +/- 1,039 IU/L, but levels in the HGF group were significantly inhibited to 1,849 +/- 605 IU/L. The relative liver weight in the vehicle control group was significantly greater than in the HGF group, a finding that was implicated in focal liver necrosis with sinusoidal congestion. Less histological damage was observed in the HGF group. Twenty-four hours after hepatectomy, an increase in the relative liver weight in nonischemic controls and in the HGF group was higher than that in vehicle control group, and the 5-bromo-2?deoxyuridine (BrdU) labeling index in the HGF group was 23% versus 18% in the nonischemic controls. Administration of dHGF significantly improved the 7-day survival to 82% versus 40% in the vehicle control group. dHGF has potential benefit as a pharmacological agent to ameliorate impairment of the hepatic microcirculation and to potentiate a regeneration response in the ischemically damaged liver after hepatectomy and/or liver transplantation.
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PMID:Beneficial effect of deletion variant of hepatocyte growth factor for impaired hepatic regeneration in the ischemically damaged liver. 1220 52

We discuss possible gene therapies for the treatment of ischemic diseases in the central nervous system (CNS). These therapies aim at the prevention of carotid artery restenosis, stimulation of angiogenesis for ischemic brain, protection of neurons against ischemia, and prevention of vasospasm due to subarachnoid hemorrhage (SAH). Carotid artery restenosis can perhaps be approached by preventing vascular smooth muscle cell proliferation via gene therapy in addition to surgical treatment. Cerebral angiogenesis therapy might be applicable to moyamoya disease. Gene therapies with VEGF and HGF to stimulate angiogenesis have been successful in muscle; however, efficacy in the CNS is unknown. Gene transfection efficiency of viral vectors has been poor in the CNS, and the safety of such vectors is questionable. Therefore, development of gene therapy is for neural protection and prevention of vasospasm due to SAH has been limited. Infusion of HVJ-AVE liposomes into monkey cerebrospinal fluid (CSF) space yielded wide-spread gene transfection. HVJ-AVE liposomes may be a promising vector for use in the human CNS. Few currently available gene therapies appear to be options for clinical treatment of cerebral ischemia despite many experimental designs. In addition to the inherent difficulties of treating the CNS, vectors and methods for introducing vectors into the CNS must be improved.
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PMID:Gene therapy for ischemic brain diseases. 1255 35

Mesenchymal stem cells could differentiate into cardiomyocytes in vitro and have been shown to reconstitute the impaired myocardium in vivo. Hepatocyte growth factor, a recognized angiogenic factor and endothelial cell chemoattractant, has been applied in the treatment of myocardial ischemia. In this study, we used a ligation model of proximal left anterior descending coronary artery of rats to evaluate the effect of mesenchymal stem cells overexpressing hepatocyte growth factor in the treatment of myocardial ischemia. Bone marrow-derived mesenchymal stem cells were isolated, expanded, characterized, and infected with adenovirus carrying human hepatocyte growth factor cDNA (Ad-HGF). Mesenchymal stem cells infected by Ad-HGF released soluble HGF protein at a high level, which was maintained at least for 2 weeks. Implantation of mesenchymal stem cells overexpressing hepatocyte growth factor into left anterior descending risk areas improved the functions of impaired myocardium, including diminishing the area of ischemia, increasing the number of capillaries, and reducing collagen content. By using the sry gene as a marker, we also demonstrated that the engrafted cells or their progeny incorporated into ischemic cardiac muscle. These results showed that treatment of myocardial ischemia with bone marrow-derived mesenchymal stem cells overexpressing hepatocyte growth factor could be a novel strategy that can both restore local blood flow and regenerate lost cardiomyocytes.
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PMID:Treatment of myocardial ischemia with bone marrow-derived mesenchymal stem cells overexpressing hepatocyte growth factor. 1294 20

The shortage of available organs for liver transplantation has motivated the development of new surgical techniques such as reduced-size liver transplantation. Ischemia-reperfusion (I/R) associated with liver transplantation impairs liver regeneration. Ischemic preconditioning is effective against I/R injury in clinical practice of liver tumour resections. The present study evaluated the effect of ischemic preconditioning on reduced-size liver for transplantation and attempted to identify the underlying protective mechanisms. Hepatic injury and regeneration (transaminases, proliferating cell nuclear antigen [PCNA] labeling index, and hepatocyte growth factor [HGF]) were assessed after reduced-size orthotopic liver transplantation (ROLT). Energy metabolism, oxidative stress, tumor necrosis factor-alpha (TNF) and interleukin-6 (IL-6) were examined as possible mechanisms involved in liver regeneration. Ischemic preconditioning reduced transaminase levels and increased HGF levels and the percentage of PCNA-positive hepatocytes after ROLT. This was associated with a decrease in oxidative stress following ROLT, whereas energy metabolism and hepatic IL-6 and TNF release were unchanged. The benefits of ischemic preconditioning on hepatic injury and liver regeneration could be mediated, at least partially by nitric oxide. These results suggest a new potential application of ischemic preconditioning in reduced-size liver transplantation.
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PMID:Protection of reduced-size liver for transplantation. 1530 28

Much effort has been made in searching for multipotent cell types with high therapeutic potentials for repair of damaged tissue. Through enzymatic digestion of fat tissue, it is possible to obtain a large number of stromal cells. Isolated cells show a high proliferate capacity in culture. All this makes adipose stromal cells (ASC) promising candidates for their use in cell therapy. This review is focused on analyzing the surface antigen profile of isolated population of ASC, expression of angiogenic factors by these cells, as well as on their differentiation potential. A high percentage of ASC population initially express the progenitor cell marker CD34, but during culturing, cells exhibit a mesenchymal cell phenotype and express CD29, CD105, CD106, CD166. Culturing ASC in specific differentiation media induces expression of early markers of differentiated mesenchymal cells, such as adipocytes, chondrocytes and osteoblasts, as well as myoblasts, cardiomyocytes and neural cells. It has been also shown that ASC have a strong pro-angiogenic potential, they are able to secret growth factors, such as VEGF, HGF, bFGF and others, which stimulate survival and proliferation of endothelial cells. In addition, systemic or local delivery of ASC to mice with hindlimb ischemia stimulates recovery of injured tissue and blood flow. Potential clinical uses of ASCs are discussed in the review.
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PMID:[Adipose stromal cells--plastic type of cells with high therapeutic potential]. 1673 75

Early oxidative DNA damage is regarded to be an initiator of neuronal apoptotic cell death after cerebral ischemia. Although evidence suggests that HGF has the ability to protect cells from oxidative stress, it remains unclear as to how HGF suppresses oxidative DNA damage after cerebral ischemia. Apurinic/apyrimidinic endonuclease/redox factor-1 (APE/Ref-1) is a multifunctional protein in the DNA base repair pathway that is responsible for repairing apurinic/apyrimidinic sites in DNA after oxidation. We demonstrated that both the immunoreactivity and the number of APE/Ref-1-positive cells in the hippocampal CA1 region were decreased after transient forebrain ischemia and that treatment with HGF suppressed this reduction. The expression of Cu/ZnSOD and MnSOD in the hippocampal CA1 region did not change after ischemia, regardless of treatment with or not with HGF. The activity of NADPH oxidase was increased mainly in glia-like cells in the hippocampal CA1 region after ischemia, and this increase was attenuated by HGF treatment. These results suggest that the protective effects of HGF against cerebral ischemia-induced cell death in the hippocampal CA1 region are related to the improvement of neuronal APE/Ref-1 expression and the inhibition of NADPH oxidase activity in glia-like cells.
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PMID:The protective effect of hepatocyte growth factor against cell death in the hippocampus after transient forebrain ischemia is related to the improvement of apurinic/apyrimidinic endonuclease/redox factor-1 level and inhibition of NADPH oxidase activity. 1697 82

The alpha-2-adrenergic receptor agonist brimonidine has been shown to increase survival of retinal ganglion cells following ischemic injury to the rat retina. Increased expression of growth factors has been suggested to be involved in this action. We investigated expressional changes of growth factors and their receptors following transient retinal ischemia induced by selective ligature of ophthalmic vessels in rats pre-treated with vehicle or 0.5% brimonidine. In addition, analysis of expression in retinal samples following unilateral administration of brimonidine to normal tissue was performed. Tissue samples of retina and superior colliculus were collected at time points between 6h and 14 days of retinal reperfusion. Analysis of mRNA levels of the ligands BDNF, NT3, CNTF, FGF1, FGF2, FGF9 and HGF; as well as the receptors TrkB, TrkC, p75(NTR), CNTFRalpha, FGFR1, FGFR3, FGFR4 and HGFR were performed using qRT-PCR. The cell specific markers Thy1 and GFAP were analysed. We report transiently increased retinal levels of BDNF, NT3, p75(NTR), FGFR1 and HGFR and decreased levels of FGF9, HGF, TrkB, TrkC, FGFR4 and Thy1 following ischemia. The decreases were counteracted by brimonidine. Brimonidine treatment gave an increase in BDNF, NT3 and CNTF levels compared to the vehicle treated group. In superior colliculus increased levels of growth factor mRNA were found. In conclusion, transient ischemia has a profound effect on gene expression in rat retina. Alterations can also be seen in the superior colliculus but are smaller. Brimonidine pre-treatment attenuates an acute injury-induced response by decreasing the expression of several genes, among them p75(NTR). Brimonidine also causes a prolonged increase of several growth factors as well as receptors in retina and superior colliculus compared to the ischemic situation. The increased expression of several growth factors represents a coordinated growth factor system response that differs from the ischemia-induced changes and is likely part of the neuroprotective activity that is elicited by BMD pre-treatment.
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PMID:The growth factor response in ischemic rat retina and superior colliculus after brimonidine pre-treatment. 1711 48

Bacteria have developed mechanisms to sequester host iron via chelators such as deferoxamine (DFO). Interestingly, DFO has been shown to stimulate acute intestinal epithelial cell inflammatory cytokine production in the absence of bacteria; however, this mechanism has not been elucidated. Intestinal epithelial cell production of IL-6 and TNF-alpha is elevated in various gastrointestinal pathologies, including acute intestinal ischemia. Similarly, VEGF and HGF are essential to intestinal epithelial cell integrity. Therapeutic strategies that decrease IL-6 and TNF-alpha while increasing VEGF and HGF therefore have theoretical appeal. We hypothesized that 1) fetal human intestinal epithelial cells acutely produce increased IL-6, TNF-alpha, VEGF, and HGF during iron chelation and 2) the MAPK pathway mediates these effects. Fetal human intestinal epithelial cells were stimulated by iron chelation (1 mM DFO) with and without p38 MAPK, ERK, or JNK inhibition. Supernatants were harvested after 24 h of incubation, and IL-6, TNF-alpha, VEGF, and HGF levels were quantified by ELISA. Activation of MAPK pathways was confirmed by Western blot analysis. DFO stimulation resulted in a significant increase in epithelial cell IL-6 and VEGF production while yielding a decrease in HGF production (P<0.05). Unexpectedly, TNF-alpha was not detectable. p38 MAPK, ERK, and JNK inhibition significantly decreased IL-6, VEGF, and HGF production (P<0.05). In conclusion, DFO acutely increases fetal human intestinal epithelial cell IL-6 and VEGF expression while causing an unexpected decrease in HGF expression and no detectable TNF-alpha production. Furthermore, chelator-induced intestinal epithelial cell cytokine expression depends on p38, ERK, and JNK MAPK pathways.
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PMID:Iron chelation acutely stimulates fetal human intestinal cell production of IL-6 and VEGF while decreasing HGF: the roles of p38, ERK, and JNK MAPK signaling. 1720 43

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