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Query: UMLS:C0022116 (
ischemia
)
91,303
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The Ret
receptor tyrosine kinase
is part of a functional receptor complex for the glial cell line-derived neurotrophic factor (GDNF) family. We examined the expression of Ret mRNA after transient forebrain
ischemia
, and explored the effect of local GDNF-pretreatment in rat hippocampus on Ret mRNA expression. Transient forebrain
ischemia
induced Ret mRNA expression in the hippocampus, with a peak effect at 12 h. Whereas intrahippocampal microinjection of GDNF (1.0 microg) in sham-operated rats induced the expression of Ret mRNA (peak at 6 to 12 h), the expected increase of Ret mRNA induced by
ischemia
was blunted by local GDNF-pretreatment. Immunohistochemical investigation revealed that
ischemia
-induced Ret receptor expression in the hippocampal CA1 region was also reduced by local GDNF-pretreatment. These findings suggest that GDNF modulates the expression of Ret, and that GDNF signaling pathways that involve the Ret
receptor tyrosine kinase
might play an important role in brain injury induced by
ischemia
.
...
PMID:Expression of Ret receptor tyrosine kinase after transient forebrain ischemia is modulated by glial cell line-derived neurotrophic factor in rat hippocampus. 1178 11
Angiopoietin-1 (Ang1) is a ligand for the endothelial specific
receptor tyrosine kinase
, Tie2, that protects the adult peripheral vasculature from vascular leakage. We tested the hypothesis that increases in levels of Ang1 reduce blood-brain barrier (BBB) leakage in ischemic brain. Mice were subjected to embolic middle cerebral artery (MCA) occlusion. Recombinant adenoviruses expressing Ang1 (Ad-Ang1) or a control gene encoding green fluorescent protein (Ad-GFP), or recombinant Ang1 protein, BowAng1, was administered to mice before MCA occlusion. Regional cerebral blood flow (rCBF), the brain tissue content of Evans Blue, and ischemic lesion volume were measured. Serum levels of Ang1 (183+/-31.9 microg/ml, n=4) were detected in mice receiving Ad-Ang1 or in mice treated with BowAng1 (262+/-35.4 microg/ml, n=7) but not in the control mice (n=11). Six hours after MCA occlusion, mice receiving Ad-GFP (n=8) or control protein (n=7) showed large Evans Blue leakage in the ipsilateral hemisphere (0.46+/-0.05 or 0.55+/-0.16 ng/mg tissue) whereas mice receiving Ad-Ang1 (n=6) or BowAng1 (n=7) had significantly (P<0.05) less Evans Blue leakage (0.26+/-0.07 or 0.14+/-0.03 ng/mg tissue). Infusion of recombinant human vascular endothelial growth factor (rhVEGF(165)) to ischemic mice resulted in significant (P<0.05) increases in Evans Blue leakage (1.24+/-0.34 ng/mg tissue, n=7) compared with the control mice. In contrast, infusion of rhVEGF(165) in ischemic mice receiving Ad-Ang1 did not significantly increase Evans Blue dye in the ipsilateral hemisphere (0.22+/-0.06 ng/mg tissue, n=6). Moreover, 24 h after
ischemia
mice receiving Ad-Ang1 had a significantly smaller ischemic lesion volume (22.6+/-2.7%, n=8) than the lesion volume in mice receiving Ad-GFP (44.7+/-3.7%, n=8), although rCBF reduced to approximately 20% of the contralateral levels in both groups of mice 10 min after
ischemia
. Our data demonstrate that Ang1 reduces BBB leakage in ischemic brain and consequently decreases ischemic lesion volume.
...
PMID:Angiopoietin-1 reduces cerebral blood vessel leakage and ischemic lesion volume after focal cerebral embolic ischemia in mice. 1215 Jul 88
A subset of human peripheral blood mononuclear cells (PB-MNCs) differentiate into endothelial progenitor cells (EPCs) that participate in postnatal neovascularization. Although tissue
ischemia
can mobilize EPCs from bone marrow, the effects of hypoxia on differentiation and angiogenic function of EPCs are little known. We examined whether hypoxic conditioning would modulate differentiation and function of human PB-MNC-derived EPCs. A subset of PB-MNCs gave rise to EPC-like attaching (AT) cells under either normoxic or hypoxic conditions. However, hypoxia much enhanced the differentiation of AT cells from PB-MNCs compared with normoxia. AT cells released vascular endothelial growth factor (VEGF) protein and expressed CD31 and kinase insert domain receptor/VEGFR-2, endothelial lineage markers, on their surface, which were also enhanced by hypoxia. Both a neutralizing anti-VEGF mAb and a KDR-specific
receptor tyrosine kinase
inhibitor, SU1498, suppressed PB-MNC differentiation into EPC-like AT cells in a dose-dependent manner. Migration of AT cells in response to VEGF as examined by a modified Boyden chamber apparatus was also enhanced by hypoxia. Finally, in vivo neovascularization efficacy was significantly enhanced by in vitro hypoxic conditioning of AT cells when cells were transplanted into the ischemic hindlimb of immunodeficient nude rats. In conclusion, hypoxia directly stimulated differentiation of EPC-like AT cells from human PB-MNC culture. Moreover, hypoxic preconditioning of AT cells before in vivo transplantation is a useful means to enhance therapeutic vasculogenesis.
...
PMID:Hypoxic preconditioning augments efficacy of human endothelial progenitor cells for therapeutic neovascularization. 1253 87
Therapeutic angiogenesis using vascular endothelial growth factor (VEGF) is considered a promising new therapy for patients with arterial obstructive disease. Clinical improvements observed consist of improved muscle function and regression of rest pain or angina. However, direct evidence for improved vascularization, as evaluated by angiography, is weak. In this study, we report an angiogenesis-independent effect of VEGF on ischemic skeletal muscle, ie, upregulation of myoglobin after VEGF treatment. Mice received intramuscular injection with adenoviral VEGF-A or either adenoviral LacZ or PBS as control, followed by surgical induction of acute hindlimb
ischemia
at day 3. At day 6, capillary density was increased in calf muscle of Ad.VEGF-treated versus control mice (P<0.01). However, angiographic score of collateral arteries was unchanged between Ad.VEGF-treated and control mice. More interestingly, an increase in myoglobin was observed in Ad.VEGF-treated mice. Active myoglobin was 1.5-fold increased in calf muscle of Ad.VEGF-treated mice (P< or =0.01). In addition, the number of myoglobin-stained myofibers was 2.6-fold increased in Ad.VEGF-treated mice (P=0.001). Furthermore, in ischemic muscle of 15 limb amputation patients, VEGF and myoglobin were coexpressed. Finally, in cultured C2C12 myotubes treated with rhVEGF, myoglobin mRNA was 2.8-fold raised as compared with PBS-treated cells (P=0.02). This effect could be blocked with the VEGF
receptor tyrosine kinase
inhibitor SU5416. In conclusion, we show that VEGF upregulates myoglobin in ischemic muscle both in vitro and in vivo. Increased myoglobin expression in VEGF-treated muscle implies an improved muscle oxygenation, which may, at least partly, explain observed clinical improvements in VEGF-treated patients, in the absence of improved vascularization.
...
PMID:Vascular endothelial growth factor overexpression in ischemic skeletal muscle enhances myoglobin expression in vivo. 1524 80
Focal adhesion kinase (FAK) is a non-
receptor tyrosine kinase
thought to play a major role in transducing extracellular matrix (ECM)-derived survival signals into cells. Thus, modulation of FAK activity may affect the linkage between ECM and signaling cascade to which it is connected and may participate in a variety of pathological settings. In the present study, we investigated the effect of neonatal cerebral hypoxia-
ischemia
(HI) on levels and tyrosine phosphorylation of focal adhesion kinase and the interaction of this enzyme with Src protein tyrosine kinase and adapter protein p130Cas, involved in FAK-mediated signaling pathway. The total amount of focal adhesion kinase as well as its phosphorylated form declined substantially to about 50% of the control between 24 and 48 h after the insult. Concomitantly a decreased association of FAK with its investigated molecular partners, Src kinase and p130Cas protein has been observed. This early response to brain hypoxia-
ischemia
was attenuated during prolonged recovery with almost complete return to control values at 7 days. These data are indicative of an involvement of FAK-dependent signaling pathway in the evolution of HI-induced neuronal degeneration.
...
PMID:Neonatal cerebral hypoxia-ischemia: involvement of FAK-dependent pathway. 1609 66
Hepatocyte growth factor (HGF) is a plasminogen-like protein with an alpha chain linked to a trypsin-like beta chain without peptidase activity. The interaction of HGF with c-met, a
receptor tyrosine kinase
expressed by many cells, is important in cell growth, migration, and formation of endothelial and epithelial tubes. Stimulation of c-met requires two-chain, disulfide-linked HGF. Portions of an alpha chain containing an N-terminal segment and four kringle domains (NK4) antagonize HGF activity. Until now, no physiological pathway for generating NK4 was known. Here we show that chymases, which are chymotryptic peptidases secreted by mast cells, hydrolyze HGF, thereby abolishing scatter factor activity while generating an NK4-like antagonist of HGF scatter factor activity. Thus, chymase interferes with HGF directly by destroying active protein and indirectly by generating an antagonist. The site of hydrolysis, Leu480, lies in the alpha chain on the N-terminal side of the cysteine linking the alpha and beta chains. This site appears to be specific for HGF because chymase does not hydrolyze other plasminogen-like proteins, such as macrophage-stimulating protein and plasminogen itself. Mast cell/neutrophil cathepsin G and neutrophil elastase generate similar fragments of HGF by cleaving near the chymase site. Mast cell and neutrophil peptidases are secreted during tissue injury, infection,
ischemia
, and allergic inflammation, where they may oppose HGF effects on epithelial repair. Thus, HGF possesses an "inactivation segment" that serves as an Achilles' heel attacked by inflammatory proteases. This work reveals a potential physiological pathway for inactivation of HGF and generation of NK4-like antagonists.
...
PMID:Mast cell and neutrophil peptidases attack an inactivation segment in hepatocyte growth factor to generate NK4-like antagonists. 1630 61
Endothelial cells (ECs), which are a major component of blood vessels, have been reported to develop in adulthood from hematopoietic cell populations, especially those of the monocyte lineage. Here we show that mural cells (MCs), another component of blood vessels, develop physiologically during embryogenesis from a hematopoietic stem cell (HSC) population, based on the in vitro culture of HSCs and histological examination of acute myeloid leukemia 1 mutant embryos, which lack HSCs. As in the embryo, HSCs in adult bone marrow differentiate into CD45+CD11b+ cells before differentiating into MCs. Moreover, CD45+CD11b+ cells are composed of two populations, CD11bhigh and CD11blow cells, both of which can differentiate into MCs as well as ECs. Interestingly, in a murine
ischemia
model, MCs and ECs derived from the CD11blow population had a long-term potential to contribute to the formation of newly developed blood vessels in vivo compared with the CD11high population, which could not. Moreover, injection of the CD11bhigh population induced leaky blood vessels, but the CD11blow population did not. With respect to the permeability of vessels, we found that angiopoietin 1, which is a ligand for Tie2
receptor tyrosine kinase
expressed on ECs and is suggested to induce cell adhesion between ECs and MCs, is produced by the CD11blow population and plays a critical role in the formation of nonleaky vessels. These observations suggested that the CD11low cell population serves as a good source of cells for in vivo blood vessel regeneration.
...
PMID:Physiological pathway of differentiation of hematopoietic stem cell population into mural cells. 1660 64
Carcinoembryonic antigen-related cell adhesion molecule 1 (CEACAM1), a cellular adhesion molecule of the Ig superfamily, is associated with early stages of angiogenesis. In vitro, CEACAM1 regulates proliferation, migration, and differentiation of murine endothelial cells. To prove that CEACAM1 is functionally involved in the regulation of vascular remodeling in vivo, we analyzed 2 different genetic models: in Ceacam1-/- mice, the Ceacam1 gene was deleted systemically, and in CEACAM1(endo+) mice, CEACAM1 was overexpressed under the control of the endothelial cell-specific promoter of the Tie2
receptor tyrosine kinase
. In Matrigel plug assays, Ceacam1-/- mice failed to establish new capillaries whereas in CEACAM1(endo+) mice the implants were vascularized extensively. After induction of hind limb
ischemia
by femoral artery ligation, Ceacam1-/- mice showed significantly reduced growth of arterioles and collateral blood flow compared with their WT littermates. In agreement with a causal role of CEACAM1 in vascular remodeling, CEACAM1(endo+) mice exhibited an increase in revascularization and collateral blood flow after arterial occlusion. Our findings indicate that CEACAM1 expression is important for the establishment of newly formed vessels in vivo. Hence CEACAM1 could be a future target for therapeutic manipulation of angiogenesis in disease.
...
PMID:Carcinoembryonic antigen-related cell adhesion molecule 1 modulates vascular remodeling in vitro and in vivo. 1668 Jan 93
The human EGF receptor (HER) 2
receptor tyrosine kinase
is a survival factor for human cardiomyocytes, and its inhibition may explain the increased incidence of cardiomyopathy associated with the anti-HER2 monoclonal antibody trastuzumab (Genentech, South San Francisco, CA), particularly in patients with prior exposure to cardiotoxic chemotherapies e.g., anthracyclines. Here, we show that GW2974 (HER2/EGF receptor tyrosine kinase inhibitor), but not trastuzumab, activates AMP-activated protein kinase (AMPK), initiating a metabolic stress response in human cardiomyocytes that protects against TNFalpha-induced cell death. GW2974 stimulates calcium dependent fatty acid oxidation in vitro and in the myocardium of GW2974-treated rodents. Calcium chelation or siRNA-targeted AMPK knockdown blocks GW2974 induced fatty acid oxidation. In addition, inhibition of AMPK by a specific inhibitor resulted in increased killing of cardiomyocytes. Elucidating the effects of HER2-targeted therapies on AMPK may predict for risk of cardiomyopathy and provide a novel HER2-targeted strategy designed to protect myocardium from the pro-apoptotic effects of pro-inflammatory cytokines released in response to cardiac injury by chemotherapy or acute
ischemia
.
...
PMID:Activation of AMP-activated protein kinase by human EGF receptor 2/EGF receptor tyrosine kinase inhibitor protects cardiac cells. 1755 44
The mitochondrial oxidative phosphorylation (OxPhos) system plays a key role in energy production, the generation of free radicals, and apoptosis. A lack of cellular energy, excessive radical production, and dysregulated apoptosis are found alone or in combination in most human diseases, including neurodegenerative diseases, stroke, cardiovascular disorders,
ischemia
/reperfusion, and cancer. In the context of its relevance to human disease, this article reviews current knowledge about the regulation of OxPhos with a focus on cell signaling and discusses identified phosphorylation sites with the aid of crystal structures of OxPhos complexes. Several recent studies have shown that all OxPhos components can be phosphorylated; even the small electron carrier cytochrome c is tyrosine phosphorylated in vivo. We propose that in higher organisms, in contrast to bacteria, cell signaling pathways are the main regulator of energy production, triggered for example by hormones. Pathways that have been identified to act on OxPhos include protein kinases A and C and growth factor activated
receptor tyrosine kinase
signaling. Present knowledge about kinases and phosphatases that execute signals at the level of the mitochondrial OxPhos system, and newly emerging concepts, such as the translocation of kinases to the mitochondria upon stimulation of a signaling pathway, are discussed.
...
PMID:Regulation of mitochondrial oxidative phosphorylation through cell signaling. 1824 Apr 21
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