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

Hypoxia-ischemia (HI) causes injury to oligodendrocytes (OLs), cells which create the myelin sheath in the developing brain. OLs pass successively through progenitor and immature stages during differentiation into mature OLs. Only the OLs in the progenitors stage can express the platelet-derived growth factor-a receptor (PDGF-R(alpha)) so that its expression is one of the cellular markers of OL progenitors. Activation of PDGF-R(alpha) results in OL proliferation, but not OL differentiation. To study the response of OL progenitors after neonatal HI brain injury, we investigated the expression of PDGF-R(alpha) in a neonatal rat stroke model (combination of left common carotid artery ligation and exposure to 8% O2 for 2 h). In the injured cerebral cortex, PDGF-R(alpha) mRNA levels increased significantly (p<0.01) with a peak at 0.5 h after HI insult, and returned to baseline levels within 48 h post-injury. PDGF-R(alpha) protein levels increased significantly at 72-96 h (p<0.05) and then returned to basal levels. Immunohistochemistry showed clear staining of PDGF-R(alpha) only in the injured cerebral cortex at 72 h after HI insult. In contrast, no staining was observed in the cortex of sham-operated controls. These results indicate that the expression of PDGF-R(alpha) increases rapidly and transiently only in the injured cerebral cortex after HI insult and may play a protective role through modulating the glial differentiation under the condition of cellular damage in the developing brain.
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PMID:PDGF-alpha receptor expression following hypoxic-ischemic injury in the neonatal rat brain. 1534 68

Reactive oxygen species (ROS) generated in and around vascular endothelium may play a role in normal cellular signaling mechanisms but may also be an important causative factor in endothelial dysfunction underlying the development of atherosclerosis, diabetes complications, and ischemia-reperfusion injury. ROS influence a variety of molecular and cellular activities, including changes in the cellular localization of regulatory factors, protein modification, and altered gene expression, which in turn influence cellular phenotype. One mechanism by which ROS exert their cellular effects involves their ability to modulate the expression and function of vascular genes, such as vascular endothelial growth factor (VEGF), fibroblast growth factor (FGF), and platelet-derived growth factor (PDGF), which play key atherogenic roles by their regulation of cell growth, differentiation, and fibroproliferative responsiveness. In this review the authors describe the changes induced by oxidative stress on the profile of growth factor gene expression in endothelial cells, and the impact these modifications have on endothelial phenotype as well as on the behavior of neighboring vascular smooth muscle cells and fibroblasts. The authors also discuss the involvement of redox-sensitive transcription factors in these regulatory processes.
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PMID:Modulation of growth factor gene expression in vascular cells by oxidative stress. 1537 72

Ischemia-reperfusion (IR) of the testis results in testicular oxidative stress and germ cell-specific apoptosis. Nuclear factor kappa B (NF-kappaB) is a nuclear transcription factor involved in the control of a number of cellular processes, and its activation is part of the cellular stress response to a variety of factors including cytokine stimulation, irradiation, and IR. The present study investigates NF-kappaB activation after IR of the murine testis and potential downstream target genes of that activation. Mice were subjected to a period of testicular ischemia followed by 0-4 hours of reperfusion. Activation of NF-kappaB was assessed by 1) Western blot analysis of the NF-kappaB inhibitory protein, IkappaBalpha; 2) immunohistochemistry for IkappaBalpha; and 3) TranSignal NF-kappaB target gene array (107 genes) analysis. Results demonstrate that IkappaBalpha is phosphorylated on serine 32 reaching a peak by 2 hours after IR of the testis. A decrease in total IkappaBalpha was also noted at 2 hours after IR, consistent with the rapid degradation of the phosphorylated protein. Phosphorylation and degradation of IkappaBalpha is indicative of NF-kappaB activation. Immunolocalization revealed IkappaBalpha specifically in Sertoli cells of the murine testis. Results of the TranSignal target gene array revealed that the expression of 9 genes was consistently changed 2 hours after IR of the testis, 3 of which increased in expression and 6 of which were down-regulated. Most notably, high-mobility group nucleosomal binding domain 1 increased in expression while platelet-derived growth factor B and Wilms tumor homolog decreased. These results suggest that testicular IR releases the suppression of NF-kappaB by IkappaBalpha in Sertoli cells. Activation of the NF-kappaB pathway in the testis resulted in an alteration of expression of potential NF-kappaB target genes, some increased while others decreased. The specific roles of these genes in the testicular response to IR remains to be determined.
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PMID:Activation of the nuclear factor kappa B pathway following ischemia-reperfusion of the murine testis. 1561 77

Ischemic-reperfusion injury mediated by free radicals and neutrophils is the principal pathway for tissue injury and death. Cytokines influence activity of various cell types during the inflammatory process. In this study, expression of selected proinflammatory cytokines was examined in primary and secondary ischemia in the rat gracilis flap model. Sixty Sprague-Dawley rats were used in the study. Primary ischemia of each gracilis flap was induced by clamping its vascular pedicle for 1 hour. The flap was then replaced and allowed to reperfuse. Twenty-four hours later, a secondary ischemia was induced via vascular clamping for 4 hours. All muscle flaps were biopsied at 4 hours and 18 hours after primary ischemia. After secondary ischemia, each flap was biopsied immediately postevent, at 4 hours, and at 18 hours. Expression of tumor necrosis factor (TNF-alpha), interleukin (IL-1beta), and platelet-derived growth factor (PDGF) mRNA was determined by RT-PCR in each case. An equal sample size of gracilis muscle flaps, elevated in an identical fashion but not subjected to vascular clamping, was examined for baseline gene expression. Results showed that TNF-alpha gene expression was significantly up-regulated at 18 hours after secondary ischemia. IL-1 gene expression was up-regulated at 4 hours after primary ischemia, and was greatest at 4 hours after secondary ischemia. PDGF expression was up-regulated immediately after secondary ischemia, then at 4 hours after secondary ischemia (P < 0.05), and down-regulated during reperfusion. This study delineated changes in the expression of TNF-alpha, IL-1beta, and PDGF mRNA, in both primary and secondary ischemia and reperfusion episodes at several critical time points.
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PMID:The expression of proinflammatory cytokines in the rat muscle flap with ischemia-reperfusion injury. 1572 43

Therapeutic angiogenesis provides a potential alternative for the treatment of cardiovascular ischemic diseases. Vascular endothelial growth factor (VEGF) is an important component of the angiogenic response to ischemia. Here we used adeno-associated virus (AAV) gene delivery to skeletal muscle to examine the effects of VEGF vs. a stabilized form of hypoxia-inducible factor-1alpha (HIF-1alpha). The recombinant AAVs were injected into mouse tibialis anterior muscle, and their effects were analyzed by immunohistochemistry and functional assays. These analyses showed that stabilized HIF-1alpha markedly increase capillary sprouting and proliferation, whereas VEGF164 or VEGF120 induced only proliferation of endothelial cells without formation of proper capillary structures. The Evans Blue permeability assay indicated that, unlike VEGF, HIF-1alpha overexpression did not increase vascular leakiness in the transduced muscle. Doppler ultrasound imaging showed that vascular perfusion in the HIF-1alpha treated muscles was significantly enhanced when compared to the controls and not further improved by co-expression of the arteriogenic growth factors angiopoietin-1 or platelet-derived growth factor-B. Our results show that AAV-mediated transduction of a stabilized form of HIF-1alpha can circumvent the problems associated with overexpression of individual angiogenic growth factors. HIF-1alpha should thus offer a potent alternative for pro-angiogenic gene therapy.
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PMID:Stabilized HIF-1alpha is superior to VEGF for angiogenesis in skeletal muscle via adeno-associated virus gene transfer. 1595 22

To test the hypothesis that overexpression of early growth response factor-1 (Egr-1) contributes to the revascularization of ischemic limbs, a constitutively active form of Egr-1 (Egr-1*) was made and evaluated in vitro and in vivo. Analyses of the transduced myocytes revealed significant upregulation of bFGF, PDGF-A, PDGF-B, IGF-II, and TGF-beta1. A coculture assay of the paracrine effects indicated that Ad-Egr-1* promoted proliferation and migration of endothelial cells. When Ad-Egr-1* was injected into the tibialis anterior muscle of mice, followed by explant culture in growth factor-reduced Matrigel, many capillary-like structures were observed in the Egr-1* group compared with minimal sprouting from the LacZ group, suggesting an angiogenic potential of Egr-1*. Next we evaluated Ad-Egr-1* in a murine model of hindlimb ischemia. Compared with slow revascularization in the control PBS or LacZ group, a rapid increase in tissue perfusion was observed in the Egr-1* group and the difference in flux ratio was statistically significant at day 7. In the injected muscle, expression of Egr-1*, upregulation of its target genes, and increased number of vessels staining positive for smooth muscle alpha-actin were observed. These results suggest that Egr-1 plays an important role in vascular recovery after occlusion and could be a potential target for therapeutic angiogenesis.
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PMID:Adenoviral-mediated delivery of early growth response factor-1 gene increases tissue perfusion in a murine model of hindlimb ischemia. 1604 1

Diabetic foot is caused by microangiopathy and is suggested to be a result of impaired angiogenesis. Using a severe hindlimb ischemia model of streptozotocin-induced diabetic mice (STZ-DM), we show that diabetic foot is a disease solely of the disturbance of platelet-derived growth factor B-chain homodimer (PDGF-BB) expression but not responses of angiogenic factors. STZ-DM mice frequently lost their hindlimbs after induced ischemia, whereas non-DM mice did not. Screening of angiogenesis-related factors revealed that only the expression of PDGF-BB was impaired in the STZ-DM mice on baseline, as well as over a time course after limb ischemia. Supplementation of the PDGF-B gene resulted in the prevention of autoamputation, and, furthermore, a protein kinase C (PKC) inhibitor restored the PDGF-BB expression and also resulted in complete rescue of the limbs of the STZ-DM mice. Inhibition of overproduction of advanced-glycation end product resulted in dephosphorylation of PKC-alpha and restored expression of PDGF-BB irrespective of blood sugar and HbA1c, indicating that advanced-glycation end product is an essential regulator for PKC/PDGF-BB in diabetic state. These findings are clear evidence indicating that diabetic vascular complications are caused by impairment of the PKC/PDGF-B axis, but not by the impaired expression of angiogenic factors, and possibly imply the molecular target of diabetic foot.
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PMID:Diabetic microangiopathy in ischemic limb is a disease of disturbance of the platelet-derived growth factor-BB/protein kinase C axis but not of impaired expression of angiogenic factors. 1639 50

Chronic ethanol-induced liver injury follows a typical progression from its earliest stage of steatosis to more advanced injury, characterized by the development of inflammation, hepatocyte necrosis/apoptosis, fibrosis and finally cirrhosis. Kupffer cells, the resident macrophage in the liver, play a critical role in the progression of liver injury. Increased exposure of Kupffer cells to lipopolysaccharide (LPS) during chronic ethanol exposure leads to the production of a number of inflammatory mediators, including tumor necrosis factor alpha (TNF-alpha). Recent evidence indicates that in addition to increased exposure to LPS, Kupffer cells also develop an enhanced sensitivity to LPS after chronic ethanol feeding. We have recently identified early growth response-1 (Egr-1), an immediate-early gene transcription factor, as an important contributor to increased LPS-stimulated TNF-alpha secretion by Kupffer cells after chronic ethanol exposure. In other models of tissue injury, such as ischemia-reperfusion in the lung, Egr-1 acts as a coordinator of the complex response to stress. Here we review the literature regarding the role of EGR-1 in regulation of a number of genes implicated in each of the stages of chronic ethanol-induced liver injury. In addition to the critical role of Egr-1 in generating maximal LPS-stimulated TNF-alpha expression, Egr-1 also controls the expression of a number of inflammatory mediators, including intercellular adhesion molecule (ICAM)-1, monocyte chemotactic protein (MCP)-1 and macrophage inflammatory protein (MIP)-2, as well as genes contributing to fibrosis, such as transforming growth factor (TFG)-beta1, platelet-derived growth factor PDGF-A chain and fibroblast growth factor (FGF). Understanding the contribution of Egr-1 to the expression of genes involved in the development of chronic ethanol-induced liver injury may lead to the development of improved therapies designed to prevent and/or reverse alcohol-induced liver injury.
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PMID:Ethanol-induced liver injury: potential roles for egr-1. 1634

Transient renal ischemia induces both inflammatory and fibrotic processes and is a major cause of acute and chronic renal insufficiency. Study of ischemia-reperfusion injury in gene-targeted mice has identified multiple factors responsible for inflammation, whereas mechanisms underlying fibrosis remain poorly defined. Here we demonstrate by both gene inactivation and target protein blockade that a single chemokine receptor subtype, the fractalkine receptor CX3CR1, is able to reduce both inflammation and fibrosis after ischemia-reperfusion injury in the mouse, leading to partially preserved renal function after injury. The mechanism involves selective effects in the outer medulla, including reduced accumulation of macrophages and reduced expression of the macrophage and platelet-derived fibrogenic protein platelet-derived growth factor-B. CX3CR1 is the first chemokine receptor shown to contribute to fibrogenesis in renal ischemia-reperfusion injury.
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PMID:Chemokine receptor CX3CR1 regulates renal interstitial fibrosis after ischemia-reperfusion injury. 1687 40

Vasculogenesis, the formation of blood vessels in embryonic or fetal tissue mediated by immature vascular cells (ie, angioblasts), is poorly understood. We report the identification of a population of vascular progenitor cells (hVPCs) in the human fetal aorta composed of undifferentiated mesenchymal cells that coexpress endothelial and myogenic markers. Under culture conditions that promoted cell differentiation, hVPCs gave rise to a mixed population of mature endothelial and mural cells when progenitor cells were stimulated with vascular endothelial growth factor-A or platelet-derived growth factor-betabeta. hVPCs grew as nonadherent cells and, when embedded in a three-dimensional collagen gel, reorganized into cohesive cellular cords that resembled mature vascular structures. hVPC-conditioned medium contained angiogenic substances (vascular endothelial growth factor-A and angiopoietin-2) and strongly stimulated the proliferation of endothelial cells. We also demonstrate the therapeutic efficacy of a small number of hVPCs transplanted into ischemic limb muscle of immunodeficient mice. hVPCs markedly improved neovascularization and inhibited the loss of endogenous endothelial cells and myocytes, thus ameliorating the clinical outcome from ischemia. We conclude that fetal aorta represents an important source for the investigation of the phenotypic and functional features of human vascular progenitor cells.
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PMID:Human fetal aorta contains vascular progenitor cells capable of inducing vasculogenesis, angiogenesis, and myogenesis in vitro and in a murine model of peripheral ischemia. 1752 56


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