UNIPROT:P31749 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P31749 (AKT)
22,954 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Single injection of a small quantity of phenol into the cortex of one kidney in rats results in development of persistent hypertension (HTN) which is thought to be mediated by activation of renal afferent and efferent sympathetic pathways and sodium retention. Nitric oxide (NO) plays a major role in regulation of renal vascular resistance, tubular Na(+) reabsorption, pressure natriuresis, and thereby systemic arterial pressure. The present study was performed to test the hypothesis that chronic renal injury-induced HTN may be associated with dysregulation of NO system in the kidney. Accordingly, urinary NO metabolite (NO(x)) and cGMP excretions as well as renal cortical tissue (right kidney) expressions of NO synthase (NOS) isoforms [endothelial, neuronal, and inducible NOS, respectively (eNOS, nNOS, and iNOS)], NOS-regulatory factors (Caveolin-1, phospho-AKt, and calmodulin), and second-messenger system (soluble guanylate cyclase [sGC] and phosphodiesterase-5 [PDE-5]) were determined in male Sprague-Dawley rats 4 wk after injection of phenol (50 mul of 10% phenol) or saline into the lower pole of left kidney. The phenol-injected group exhibited a significant elevation of arterial pressure, marked reductions of urinary NO(x) and cGMP excretions, downregulations of renal tissue nNOS, eNOS, Phospho-eNOS, iNOS, and alpha chain of sGC. However, renal tissue AKt, phospho-AKT, Calmodulin, and PDE-5 proteins were unchanged in the phenol-injected animals. In conclusion, renal injury in this model results in significant downregulations of NOS isoforms and sGC and consequent reductions of NO production and cGMP generation by the kidney, events that may contribute to maintenance of HTN in this model.
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PMID:Effect of renal injury-induced neurogenic hypertension on NO synthase, caveolin-1, AKt, calmodulin and soluble guanylate cyclase expressions in the kidney. 1712 86

This report demonstrates that mice deficient in Flt-1 failed to establish ischemic preconditioning (PC)-mediated cardioprotection in isolated working buffer-perfused ischemic/reperfused (I/R) hearts compared to wild type (WT) subjected to the same PC protocol. WT and Flt-1+/- mice were divided into four groups: (1) WT I/R, (2) WT + PC, (3) Flt-1+/- I/R, and (4) Flt-1+/- + PC. Group 1 and 3 mice were subjected to 30 min of ischemia followed by 2 h of reperfusion and group 2 and 4 mice were subjected to four episodes of 4-min global ischemia followed by 6 min of reperfusion before ischemia/reperfusion. For both wild-type and Flt-1+/- mice, the postischemic functional recovery for the hearts was lower than the baseline, but the recovery for the knockout mice was less compared to the WT mice even in preconditioning. The myocardial infarction and apoptosis were higher in Flt-1+/- compared to wild-type I/R. Flt-1+/- KO mice demonstrated pronounced inhibition of the expression of iNOS, p-AKT & p-eNOS. Significant inhibition of STAT3 & CREB were also observed along with the inhibition of HO-1 mRNA. Results demonstrate that Flt-1+/- mouse hearts are more susceptible to ischemia/reperfusion injury and also document that preconditioning is not as effective as found in WT and therefore suggest the importance of VEGF/Flt-1 signaling in ischemic/reperfused myocardium.
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PMID:VEGFR1 (Flt-1+/-) gene knockout leads to the disruption of VEGF-mediated signaling through the nitric oxide/heme oxygenase pathway in ischemic preconditioned myocardium. 1744 95

Membrane-derived microvesicles (MVs) are released from the cell surface and are implicated in cell-to-cell communication. We evaluated whether MVs derived from endothelial progenitor cells (EPCs) are able to trigger angiogenesis. We found that EPC-derived MVs were incorporated in endothelial cells by interaction with alpha4 and beta1 integrins expressed on the MV surface. In vitro, MVs promoted endothelial cell survival, proliferation, and organization in capillary-like structures. In vivo, in severe combined immunodeficient (SCID) mice, MV-stimulated human endothelial cells organized in patent vessels. When incubated with RNase, despite their internalization into endothelial cells, MVs failed to induce in vitro and in vivo angiogenic effects. mRNA transfer was shown by transduction of GFP protein in endothelial cells by MVs containing GFP-mRNA and the biologic relevance by the angiogenic effect of MV-mRNA extract delivered by lipofectamine. Microarray ana-lysis and quantitative reverse transcription-polymerase chain reaction (RT-PCR) of MV-mRNA extract indicated that MVs were shuttling a specific subset of cellular mRNA, such as mRNA associated with the PI3K/AKT signaling pathway. Protein expression and functional studies showed that PI3K and eNOS play a critical role in the angiogenic effect of MVs. These results suggest that EPCs may activate angiogenesis in endothelial cells by releasing MVs able to trigger an angiogenic program.
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PMID:Endothelial progenitor cell derived microvesicles activate an angiogenic program in endothelial cells by a horizontal transfer of mRNA. 1753 14

We have recently demonstrated that endothelial beta(2) adrenergic receptors (beta(2)AR) regulate eNOS activity and consequently vascular tone, through means of PKB/AKT. In this work we explored the signal transduction pathway leading to AKT/eNOS activation in endothelial cells (EC). Using pharmacological and molecular inhibitors both in cultured EC cells and in ex vivo rat carotid preparations, we found that G(i) coupling of the beta(2)AR is needed for AKT activation and vasorelaxation. Since endothelial activation is sensitive to pertussis toxin but not to G(ibetagamma) inhibition by betaARKct, we conclude that G(alphai) mediates betaAR induced AKT activation. Downstream, betaAR signalling requires the soluble tyrosine kinase SRC, as both in cultured EC and rat carotid, the mutant dominant negative of SRC prevent beta(2)AR induced endothelial activation and vasodilation. In EC, G(alphai) directly interacts with SRC and this interaction leads to SRC activation and phosphorylation in a manner that is regulated by beta(2)AR stimulation. We propose a novel signal transduction pathway for beta(2)AR stimulation trough G(alphai) and SRC, leading to activation of AKT.
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PMID:Endothelial beta2 adrenergic signaling to AKT: role of Gi and SRC. 1762 54

Excessive oxidative stress has been implicated in the pathology and complications of diabetes, which leads to myocardial ischemia reperfusion injury. The present study was designed to examine whether resveratrol (trans-3,5,4'-trihydroxystilbene), a polyphenolic compound present in red wine has a direct cardioprotective effect on diabetic myocardium. Resveratrol (2.5 mg/kg body wt/day) and L-NAME (25 mg/kg body wt/day) were administered orally for 15 days to streptozotocin (65 mg/kg)-induced diabetic rats. Sprague Dawley rats were divided into 5 groups: (i) control, (ii) diabetic, (iii) diabetic+resveratrol, (iv) diabetic+resveratrol+L-NAME (nitric oxide synthase inhibitor), and (v) diabetic+L-NAME. In our present study resveratrol demonstrated significant reduction in glucose level in diabetic rats. After the treatment, the hearts were excised and subjected to 30 min of global ischemia followed by 2 h of reperfusion. Resveratrol-treated diabetic rats demonstrated significant reduction in glucose levels as compared to the nontreated diabetic animals, and improved left ventricular function throughout reperfusion compared to the diabetic or L-NAME-treated animals (dp/dt(max) 1457+/-51 vs 999+/-44 mm Hg/s at 120 min reperfusion). Cardioprotection from ischemic injury in resveratrol-treated diabetic rats showed decreased infarct size (42% vs 51%) and cardiomyocyte apoptosis (35% vs 40%) as compared with diabetic animals. Resveratrol produced significant induction of p-AKT, p-eNOS, Trx-1, HO-1, and VEGF in addition to increased activation of MnSOD activity in diabetic animals compared to nondiabetic animals. However treatment with L-NAME in resveratrol-treated and nontreated diabetic animals demonstrated significant downregulation of the above-noted protein expression profile and MnSOD activity. In the present study we found that the mechanism(s) responsible for the cardioprotective effect of resveratrol in the diabetic myocardium include upregulation of Trx-1, NO/HO-1, and VEGF in addition to increased MnSOD activity and reduced blood glucose level. Thus this study shows a novel mechanism of pharmacological preconditioning with resveratrol in the diabetic myocardium.
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PMID:Resveratrol alleviates cardiac dysfunction in streptozotocin-induced diabetes: Role of nitric oxide, thioredoxin, and heme oxygenase. 1766 36

Inhalation of ultrafine particulate matter (PM) in air pollution increases cardiovascular mortality by passing into systemic circulation and possibly affecting endothelial cell (EC) function. This study identified the chemical constituents, including polycyclic aromatic hydrocarbons (PAHs), in diesel exhaust particulate extracts (DEPEs) prepared from a truck run at different speeds and engine loads. The short-term effects of DEPEs alone or in combination with estradiol (E(2)) on MAPK (ERK1/2), AKT, and eNOS activation and nitric oxide (NO) production in human umbilical vein EC (HUVEC) were evaluated. Notably, DEPE from a truck run under increasing loads (L) stimulated phosphorylation of MAPK, AKT, and eNOS whereas DEPE from the truck run at increasing speeds (S) did not affect MAPK alone, but inhibited E(2)-induced MAPK and eNOS phosphorylation. Higher PAH concentrations in the DEPE L versus DEPE S samples correlate with the observed differences in cellular activities. Like E(2), DEPEs rapidly increased NO with the DEPE L sample acting additively with E(2) and then inhibiting E(2)-induced NO with longer treatment time. Like E(2), DEPEs increased trans-endothelial electrical resistance (TEER) across a monolayer of HUVEC. These data are the first characterization of rapid effects of DEPE in human EC and may indicate mechanisms for diesel exhaust in vascular function.
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PMID:Rapid effects of diesel exhaust particulate extracts on intracellular signaling in human endothelial cells. 1792 Jul 90

Tumour cells become addicted to the expression of initiating oncogenes like Ras, such that loss of oncogene expression in established tumours leads to tumour regression. HRas, NRas or KRas are mutated to remain in the active GTP-bound oncogenic state in many cancers. Although Ras activates several proteins to initiate human tumour growth, only PI3K, through activation of protein kinase B (PKB; also known as AKT), must remain activated by oncogenic Ras to maintain this growth. Here we show that blocking phosphorylation of the AKT substrate, endothelial nitric oxide synthase (eNOS or NOS3), inhibits tumour initiation and maintenance. Moreover, eNOS enhances the nitrosylation and activation of endogenous wild-type Ras proteins, which are required throughout tumorigenesis. We suggest that activation of the PI3K-AKT-eNOS-(wild-type) Ras pathway by oncogenic Ras in cancer cells is required to initiate and maintain tumour growth.
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PMID:Tumour maintenance is mediated by eNOS. 1834 80

HMG-CoA reductase inhibitor (statins) are known to have pleiotropic effects. We examined the effect and mechanism of simvastatin on peripheral endothelial progenitor cells (EPCs). Rats were divided into simvastatin group and the control group after cardiac infarction operation. Simvastatin treatment significantly increased the number of peripheral blood CD34+ CD133+ cells, and serum concentration of vascular endothelial growth factor (VEGF) and AKT was markedly increased in vivo. In cultured EPC, simvastatin increased the concentrations of VEGF, AKT and eNOS. Western blots analysis showed that simvastatin increased the phosphorylation of eNOS and FKHRL1, which can be blocked by the PI3K/AKT pathway blocker LY294002 . Our study demonstrated that simvastatin increases the mobilization of EPCs after cardiac infarction. In in vitro study, simvastatin increases the phosphorylation of eNOS and of FKHRL1 through the PI3K/AKT signaling pathway.
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PMID:HMG-CoA reductase inhibitor regulates endothelial progenitor function through the phosphatidylinositol 3'-kinase/AKT signal transduction pathway. 1856 6

Recent studies on the protection afforded by moderate wine consumption against cardiovascular diseases have focused mainly on the activity of red wine in view of its high content of antioxidants, especially polyphenols. White wine lacks polyphenols, but it contains other compounds such as hydroxycinnamic acids (caffeic acid) and monophenols (tyrosol), which are known to have antioxidant properties. Therefore, this study was designed to examine the effect of white wine in myocardial ischemic-reperfusion injury. The experimental rats were gavaged with white wine (Soave Suavia "Le Rive" 2004) at a dosage of 6.5 mL/(kg.rat.day) for 30 days. Rats were divided into four groups: control sham (CS), wine-treated sham (WS), control ischemia (I)/reperfusion (R) (CIR), and wine + IR (WIR). All the rats in both IR groups underwent 30 min occlusion of the left anterior descending coronary artery followed by 8, 24 h, and 30 days of reperfusion (R). Significant reduction in infarct size (21 vs 39%, n = 6), cardiomyocyte (274 vs 384 counts/100 HPF, n = 6), and endothelial cell apoptosis (387 vs 587 counts/100 HPF) was observed in WIR as compared with CIR after 24 h of reperfusion. Echocardiography demonstrated significant increased fractional shortening (32 vs 22%) and ejection fraction (60 vs 44%) following 30 days of reperfusion in WIR rats compared to CIR ( n = 6). In addition, increased phosphorylation of AKT, Foxo3a, and eNOS were found in WS and WIR, as compared to their respective controls. The gel-shift analysis demonstrated significant upregulation of DNA binding activity of NF-kappaB in the white wine-treated groups. This report demonstrated for the first time that the white wine mediated cardioprotection in ischemic reperfused myocardium is through the PI-3kinase/Akt/FOXO3a/e-NOS/NF-kappaB survival pathway.
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PMID:White wine induced cardioprotection against ischemia-reperfusion injury is mediated by life extending Akt/FOXO3a/NFkappaB survival pathway. 1864 40

GSE (grape seed extract) has been shown to exhibit protective effects against cardiovascular events and atherosclerosis, although the underlying molecular mechanisms of action are unknown. Herein, we assessed the ability of GSE to enhance eNOS (endothelial nitric oxide synthase) expression and NO (nitric oxide) production in H2O2 (hydrogen peroxide)-treated HUVECs (human umbilical vein endothelial cells). GSE enhanced eNOS expression and NO release in H2O2-treated cells in a dose-dependent manner. GSE inhibited intracellular ROS (reactive oxygen species) and reduced intracellular calcium in a dose-dependent manner in H2O2-treated cells, as shown by confocal microscopy. ROS was inhibited in cells pretreated with 5.0 microM GSE, 2.0 microM TG (thapsigargin) and 20.0 microM 2-APB (2-aminoethoxydiphenyl borate) instead of 0.25 microM extracellular calcium. In addition, GSE enhanced eNOS expression and reduced ROS production via increasing p-AKT (AKT phosphorylation) with high extracellular calcium (13 mM). In conclusion, GSE protected against endothelial injury by up-regulation of eNOS and NO expression via inhibiting InsP3Rs (inositol 1,4,5-trisphosphate receptors)-mediated intracellular excessive calcium release and by activating p-AKT in endothelial cells.
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PMID:Grape seed extract enhances eNOS expression and NO production through regulating calcium-mediated AKT phosphorylation in H2O2-treated endothelium. 2051 34

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