EC:2.7.7.49 - FACTA Search

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Query: EC:2.7.7.49 (reverse transcriptase)
31,746 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Together, the limited capacity for regenerative growth in cardiac muscle after injury and the prevalence of ongoing sporadic cell death due to apoptosis in chronic heart failure states pose one of the paramount challenges in heart failure therapeutics. In adults, the unique self-renewal potential of progenitor/stem cells is associated with telomerase reverse transcriptase (TERT), an RNA-dependent DNA polymerase that maintains the lariat-like loop capping chromosome ends. We have identified telomere uncapping, mediated by down-regulation of telomere repeat-binding factor 2 (TRF2) as a novel trigger of cell death in human dilated cardiomyopathy. Conversely, we identified a residual TERT+ population in adult myocardium, as a potential source of cardiac progenitor cells. Residual TERT expression was localized to cells expressing stem cell antigen 1 (Sca1). Cardiac-resident Sca1+ cells lack haematopoietic stem cell markers and transcripts for cardiac structural genes, yet express many cardiogenic transcription factors. If given intravenously to mice just after ischemia-reperfusion injury, cardiac Sca1+ cells home selectively to injured myocardium and differentiate spontaneously in situ.
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PMID:Dual roles of telomerase in cardiac protection and repair. 1701 17

Exercise reduces ischemia and reperfusion injury in rat stroke models. We investigated whether gradual increases in tumor necrosis factor-alpha (TNF-alpha) reported during exercise down-regulates expression of TNF-alpha receptors I and II (TNFRI and II) in stroke, leading to reduced brain damage. Adult male Sprague Dawley rats were subjected to 30 minutes of exercise on a treadmill each day for 3 weeks. Then, stroke was induced by a 2-hour middle cerebral artery (MCA) occlusion using an intra-luminal filament. Expressions of TNFRI and II mRNA in the brain were detected using a real-time reverse transcriptase-polymerase chain reaction (RT-PCR). Protein expressions of TNFRI and II were determined by enzyme-linked immunoabsorbant assay (ELISA) in serum and brain homogenates. Spatial distribution of TNF-alpha receptors in brain regions was determined with immunocytochemistry. In human umbilical vein endothelial cells (HUVEC), we addressed the causal effect of TNF-alpha pretreatment on TNF I and II expression using ELISA and real-time PCR. In exercised rats after stroke, brain infarct was significantly (p<0.01) reduced in the entire MCA supplied regions, associated with a mild expression of TNFRI and II mRNA and protein. The TNF-alpha receptors were restricted to the ischemic core. In contrast, a robust expression of TNFRI and II molecules was found in non-exercised rats subjected to similar ischemia/reperfusion insults. An in vitro study revealed a causal link between TNF-alpha pretreatment and reduced cellular expression of TNF-alpha receptors under hypoxic/reoxygenated conditions. Our results suggest that reduced-brain damage in ischemic rats after exercise preconditioning may be attributable to the reduced expression of TNF-alpha receptors. Chronically increased TNF-alpha expression was also found to reduce TNFI and II responding to acute ischemia/reperfusion insult.
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PMID:Exercise preconditioning reduces brain damage and inhibits TNF-alpha receptor expression after hypoxia/reoxygenation: an in vivo and in vitro study. 1710 21

To examine the changes in erythropoietin (Epo) protein and its mRNA expression in rat brain subjected to focal ischemia and possible mechanism of the preconditioning of mitochondrial toxin 3-nitropropionic acid (3-NPA), rats were administrated either vehicle or 3-NPA at a dose of 20 mg/kg, intraperitoneally (ip), 3 days prior to a 2-h middle cerebral artery occlusion followed by 24-h reperfusion. Infarct volumes were measured by using 2, 3, 5 triphenylte trazolinm chloride (TTC) staining, and Epo protein and its mRNA levels were assessed by immunohistochemistry and reverse transcriptase polymerase chain reaction (RT-PCR), respectively. Our results showed that after reperfusion, Epo was found to be expressed extensively in the rat brain. It was most apparent in the basal nuclei and hippocampus, and was, to some extent, present in cortex. Preconditioning with 3-NPA caused a reduction in infarct volume. The expression of both Epo protein and mRNA increased significantly in the different brain areas in the 3-NPA pretreated group as compared with the non-pretreated ischemia model group. These results suggested that preconditioning with low dose 3-NPA could induce ischemic tolerance and neuro-protective effects by increasing the Epo expression in the ischemic and ischemia-related areas.
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PMID:Cerebral ischemic tolerance induced by 3-nitropropionic acid is associated with increased expression of erythropoietin in rats. 1712 Jul 43

Impaired wound healing as a result of age is a well-documented phenomenon. However, the overall deficit in healing is substantially increased when the healing wound of an aged animal is ischemic. We hypothesized that both of these deficits are cytokine mediated. We have studied the messenger RNA expression of platelet-derived growth factor receptor-beta, using the rabbit dermal ulcer model of wound repair, in young (3 to 6 months) and aged (48 months and 60 months) rabbits under normal and ischemic conditions. Platelet-derived growth factor receptor-beta mRNA expression was measured with the use of quantitative reverse transcriptase-polymerase chain reaction with incorporation of a synthetic, nonhomologous DNA fragment complementary to platelet-derived growth factor receptor-beta primers as a competitive internal standard. Results in young rabbits showed a large upregulation of platelet-derived growth factor receptor-beta mRNA expression after wounding. In both aged animal groups, platelet-derived growth factor receptor-beta expression was found to be significantly decreased in nonischemic wounds relative to young nonischemic controls. Ischemia was found to have little effect on platelet-derived growth factor receptor-beta mRNA expression in young animals relative to matched controls. However, ischemia induced a large decrease in the platelet-derived growth factor receptor-beta mRNA levels of wounds of aged animals relative to paired aged nonischemic wounds. Results suggest an age-related delay in platelet-derived growth factor receptor-beta mRNA expression in healing wounds, as well as an age-related decline in responsiveness to confounding ischemia.
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PMID:Differential expression of platelet-derived growth factor receptor-beta in an aging model of wound repair. 1717 16

Chemokines help to establish cerebral inflammation after ischemia, which comprises a major component of secondary brain injury. The CXCR4 chemokine receptor system induces neural stem cell migration, and hence has been implicated in brain repair. We show that CXCR1 and interleukin-8 also stimulate chemotaxis in murine neural stem cells from the MHP36 cell line. The presence of CXCR1 was confirmed by reverse transcriptase PCR and immunohistochemistry. Interleukin-8 evoked intracellular calcium currents, upregulated doublecortin (a protein expressed by migrating neuroblasts), and elicited positive chemotaxis in vitro. Therefore, effectors of the early innate immune response may also influence brain repair mechanisms.
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PMID:The MHP36 line of murine neural stem cells expresses functional CXCR1 chemokine receptors that initiate chemotaxis in vitro. 1728 63

A cerebral growth hormone axis is activated following brain injury in the rat and treatment with growth hormone is neuroprotective. We have now investigated whether the closely related prolactin axis has similar properties following injury to the developing rat brain. From one day following a unilateral hypoxic ischemic injury, prolactin immunoreactivity was increased in the affected cortex parallel to the development of the injury (P<0.001). Initial prolactin and prolactin receptor staining on penumbral neurons progressively decreased whereas astrocytes remained strongly immunopositive. Reactive microglia also became strongly prolactin immunoreactive. Unlike growth hormone, central treatment with prolactin failed to rescue neurons in this paradigm. This was confirmed in vitro; rat prolactin failed to protect neurons under conditions for which growth hormone was neuroprotective. However, prolactin had trophic and pro-proliferative effects on glia (P<0.001). We confirmed the expression of the prolactin receptor in vitro by reverse transcriptase polymerase chain reaction, and show its strong association with astrocytes as compared with neurons by immunocytochemistry. In summary, we show for the first time that hypoxia ischemia induces a robust activation of the prolactin axis in regions of the cerebral cortex affected by injury. The lack of neuroprotective properties in vivo and in vitro indicates that, unlike growth hormone, prolactin is not directly involved in neuronal rescue in the injured brain. Its strong relation to glial reactions and its gliatrophic effects suggest that the prolactin axis is primarily involved in a gliogenic response during recovery from cerebral injury.
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PMID:Prolactin is involved in glial responses following a focal injury to the juvenile rat brain. 1731 19

Osteopontin (OPN) is an adhesive glycoprotein linked to a variety of pathophysiological processes, with neuroprotective properties in ischemic injury. We examined the postischemic expression and localization of OPN in the rat brain after transient forebrain ischemia. The semiquantitative reverse transcriptase-polymerase chain reaction (RT-PCR) analysis showed that OPN expression in the hippocampal CA1 region was biphasic, peaking at day 3 after reperfusion and again between days 14 and 28. The two phases of OPN induction occurred in a time- and cell-dependent manner in the ischemic hippocampus. OPN mRNA expression in activated microglia was first induced 1 day after reperfusion, reached a peak at 3 days, and returned to basal levels by 7 days. In contrast, OPN expression in reactive astrocytes was first induced by 10 days after reperfusion in the hippocampal CA1. Astroglial OPN expression further increased, reaching a peak at day 14 and was maintained up to day 28, the latest time point we examined. OPN immunoreactivity in the ischemic hippocampus matched the mRNA induction patterns. OPN protein was first localized in the astroglial cytoplasm and later in the extracellular matrix of the hippocampal CA1. The temporal and cellular patterns of OPN induction in the ischemic hippocampus suggest a multifunctional capacity in the pathogenesis of ischemic injury, with the increased OPN production and secretion by reactive astrocytes being involved in subsequent tissue repair and reorganization.
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PMID:Transient microglial and prolonged astroglial upregulation of osteopontin following transient forebrain ischemia in rats. 1739 66

This study characterizes the distribution of the two tyrosine kinase receptors for vascular endothelial growth factor (VEGF), Flt-1 and Flk-1, in the rat hippocampus following transient forebrain ischemia. The semi-quantitative reverse transcriptase-polymerase chain reaction (RT-PCR) analysis of Flt-1 and Flk-1 in hippocampal CA1 showed upregulation of these receptors following ischemic injury. Expression of Flt-1 and Flk-1 mRNA was restricted to neurons in the pyramidal cell and granule cell layers in control animals; however, upregulation was detected in activated glial cells and in the vascular endothelial cells rather than in neurons, in ischemic hippocampi. Most of the activated glial cells expressing Flt-1 and Flk-1 were reactive astrocytes, although some were microglial cells. The spatiotemporal expression of Flt-1 in the ischemic hippocampus mirrored that of Flk-1 expression. Expression of mRNA for both receptors was induced after 12 h, appeared to be increased progressively until 3 days when the highest expression was reached, and was sustained for more than 2 weeks. Flt-1 and Flk-1 immunoreactivity in the ischemic hippocampus matched the mRNA induction patterns except for a somewhat delayed onset. These data suggest that VEGF may be involved in the glial response via specific VEGF receptors in the rat hippocampus following transient forebrain ischemia.
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PMID:Upregulation of vascular endothelial growth factor receptors Flt-1 and Flk-1 in rat hippocampus after transient forebrain ischemia. 1740 57

The majority of transplants are derived from donors who suffered from brain injury. There is evidence that brain death causes inflammatory changes in the donor. To define the impact of brain death, we evaluated the gene expression of cytokines in human brain dead and ideal living donors and compared these data to organ function following transplantation. Hepatic tissues from brain dead (n = 32) and living donors (n = 26) were collected at the time of donor laparotomy. Additional biopsies were performed before organ preservation, at the time of transplantation and one hour after reperfusion. Cytokines were assessed by real-time reverse transcriptase-polymerase chain reaction (RT-PCR) and cytometric bead array. Additionally, immunohistological analysis of tissue specimens was performed. Inflammatory cytokines including IL-6, IL-10, TNF-alpha, TGF-beta and MIP-1alpha were significantly higher in brain dead donors immediately after laparotomy compared to living donors. Cellular infiltrates significantly increased in parallel to the soluble cytokines IL-6 and IL-10. Enhanced immune activation in brain dead donors was reflected by a deteriorated I/R injury proven by elevated alanin-amino-transferase (ALT), aspartat-amino-transferase (AST) and bilirubin levels, increased rates of acute rejection and primary nonfunction. Based on our clinical data, we demonstrate that brain death and the events that precede it are associated with a significant upregulation of inflammatory cytokines and lead to a worse ischemia/reperfusion injury after transplantation.
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PMID:Brain death activates donor organs and is associated with a worse I/R injury after liver transplantation. 1743 Mar 97

Deficient angiogenesis after ischemia may contribute to worse outcomes of peripheral arterial disease in patients with diabetes mellitus (DM). Vascular endothelial growth factor (VEGF) and its receptors promote angiogenesis. We hypothesized that in peripheral arterial disease, maladaptive changes in VEGF ligand/receptor expression could account for impaired angiogenesis in DM. Skeletal muscle from diet-induced, type 2 diabetic (DM) and age-matched normal chow (NC)-fed mice was collected at baseline and 3 and 10 days after hindlimb ischemia and analyzed for expression of VEGF (n=10 per group), full-length VEGF receptor (VEGFR)-1, soluble VEGFR-1, and markers of downstream VEGF signaling (n=20 per group) using ELISA, reverse transcriptase-polymerase chain reaction, and Western blots. In the absence of ischemia, DM mice had increased VEGF (NC versus DM: 26.6+/-2.6 versus 53.5+/-8.8 pg/mg protein; P<0.05), decreased soluble and membrane-bound VEGFR-1 (NC versus DM: 1.44+/-0.30 versus 0.85+/-0.08 and 1.03+/-0.10 versus 0.72+/-0.10, respectively; P<0.05), decreased phospho-AKT/AKT and phospho-endothelial NO synthase/endothelial NO synthase (NC versus DM: 0.76+/-0.2 versus 0.38+/-0.1 and 0.36+/-0.06 versus 0.25+/-0.04, respectively; P<0.05), and no change in VEGFR-2. After ischemia, both DM and NC had comparable increases in VEGF-A. VEGFR-1 and soluble VEGFR-1 expression increased in both groups, but the fold increase was significantly greater in DM. These data demonstrate that soluble VEGFR-1, an angiogenesis inhibitor, is regulated in skeletal muscle by type 2 DM and ischemia. In the absence of ischemia, despite reductions in both soluble VEGFR-1 and VEGFR-1, VEGF ligand signaling is lower in DM compared with controls. After ischemia, maladaptive upregulation of these receptors further reduces the capacity of VEGF to induce an angiogenic response, which may provide a novel target for therapy.
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PMID:Impaired angiogenesis after hindlimb ischemia in type 2 diabetes mellitus: differential regulation of vascular endothelial growth factor receptor 1 and soluble vascular endothelial growth factor receptor 1. 1782 71

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