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: UNIPROT:P31749 (AKT)
22,954 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Ischemic preconditioning results in an immediate phase of protection against lethal ischemia/reperfusion injury that is comprised of both irreversible necrosis and programmed cell death, apoptosis. We hypothesized that preconditioning may activate putative anti-apoptotic pathways, through the induction of either phosphatidyl inositol 3-OH kinase (PI3 kinase) or p42/p44 extracellular receptor kinase, attenuating total cell death. Isolated perfused rat hearts were preconditioned with two cycles of 5 min ischemia and 10 min reperfusion. Then they were frozen for Western blot analysis or subjected to 35 min regional ischemia and 120 min reperfusion prior to infarct size assessment. Selective PI3 kinase inhibitors, wortmannin (W, 100 n M) and LY294002 (LY, 15 microM) and the p42/p44 inhibitor, PD 98059 (PD, 10 and 50 microM), were individually infused during the preconditioning protocol. One further group of hearts received both inhibitors (W and PD). The results were expressed as percentage of infarction within the risk zone. Inhibition of PI3 kinase by either W or LY partially abrogated the infarct sparing effect of ischemic preconditioning (I/R%: 44.6+/-2.7 in C, 17.6+/-2.0 in IP, vs 32.2+/-4.2 in W, and 30.9+/-2.6 in LY, P<0.05). Inhibition of ERK phosphorylation however, had no significant effect upon infarct size reduction (17.6+/-2.0 in ischemic preconditioning vs 21.4+/-3.0 in IP+10 microM PD and 15.2+/-1.4 in IP+50 microM PD, P>0.05). Western blot analysis confirmed that PD abrogated the phosphorylation of p42/p44 and LY the phosphorylation of AKT. Combined inhibition with PD+W failed to further attenuate protection (27.6+/-1.3%, P>0.1). These data appear to demonstrate that the PI3 kinase, but not the p42/p44 cascade, is implicated in early ischemic preconditioning.
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PMID:PI3 kinase and not p42/p44 appears to be implicated in the protection conferred by ischemic preconditioning. 1205 53

During ischemia/reperfusion (I/R), cardiomyocytes are exposed to sudden lack of nutrients and successively to radical oxygen species (ROS). In the present study, we used the HL-5 cardiac atrial myocyte cell line exposed to serum/glucose depletion added or not in H(2)O(2) to mimic ROS during ischemia, then replaced in their standard culture medium to simulate reperfusion. We investigated the effects of serum/glucose depletion combined or not to ROS exposure on AKT and MAP kinases activation to address the role of each event with respect to apoptosis. We demonstrate that serum/glucose depletion per se did not induce apoptosis when compared to ROS exposure. In particular, ROS recruited p38MAPK and JNK pathways. SB202190 preventing p38MAPK activity, partially protected HL-5 from apoptosis while blocking JNK, thanks to JNKI, further enhanced apoptosis. Blocking phosphatidylinositol (PI) 3-kinase with LY294002 or ERKs with U0126 was without consequence on apoptosis. Finally, BCL-2 and BCL-X(L/S) expression levels were analyzed in cells exposed to 1 h ischemia followed by 12-h reperfusion in the presence or not of SB202190; BCL-2, but not BCL-X(L/S), expression was decreased in ROS treated cells but SB202190 failed to restore BCL-2 level. Our data suggest that p38MAPK activation primarily mediates ROS-induced apoptosis while concomitant JNK activation would represent a scavenger pathway for cells trying to escape apoptosis.
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PMID:Characterization of apoptosis signal transduction pathways in HL-5 cardiomyocytes exposed to ischemia/reperfusion oxidative stress model. 1259 6

In vivo, ischemia is known to damage the blood-brain barrier (BBB) leading to the development of vasogenic brain edema. Hypoxia-induced vascular endothelial growth factor (VEGF) has been shown to be a key regulator of these permeability changes. However, the signaling pathways that underlie VEGF-induced hyperpermeability are incompletely understood. In this study, we demonstrate that hypoxia- and VEGF-induced permeability changes depend on activation of phospholipase Cgamma (PLCgamma), phosphatidylinositol 3-kinase/Akt (PI3-K/Akt), and protein kinase G (PKG). Inhibition of mitogen-activated protein kinases (MAPK) and of the protein kinase C (PKC) did not affect permeability at all. Paralleling hypoxia- and VEGF-induced permeability changes, localization of the tight junction proteins occludin, zonula occludens-1 (ZO-1), and ZO-2 along the cell membrane changed from a continuous to a more discontinuous expression pattern during hypoxia. In particular, localization of ZO-1 and ZO-2 expression moved from the cell membrane to the cytoplasm and nucleus whereas occludin expression remained at the cell membrane. Inhibition of PLCgamma, PI3-kinase, and PKG abolished these hypoxia-induced changes. These findings demonstrate that hypoxia and VEGF induce permeability through rearrangement of endothelial junctional proteins which involves activation of the PLCgamma and PI3-K/AKT pathway leading to the activation of PKG.
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PMID:Simultaneous activation of several second messengers in hypoxia-induced hyperpermeability of brain derived endothelial cells. 1475 41

Aging and diabetes in women increase their susceptibility to myocardial ischemic injury, but the cellular mechanisms involved are not understood. Consequently, we studied the influence of gender on cardiac insulin resistance and ischemic injury in the aging of Goto-Kakizaki (GK) rat, a model of type 2 diabetes. Male and female GK rats had heart/body weight ratios 29% (P < 0.0001) and 53% (P < 0.0001) higher, respectively, than their sex-matched controls, with the female GK rat hearts significantly more hypertrophied than the male (P < 0.001). Glucose transporter (GLUT) 1 protein levels were the same in all hearts, but GLUT4 protein levels were 28% lower (P < 0.01) in all GK rat hearts compared with their sex-matched controls. In isolated, perfused hearts, insulin-stimulated (3)H-glucose uptake rates were decreased by 23% (P < 0.05) and 40% (P < 0.05) in male and female GK rat hearts, respectively, compared with their controls, with the female significantly more insulin resistant than the male GK rat hearts (P < 0.05). Protein kinase B protein levels and insulin-stimulated phosphorylation were the same in all hearts. During low-flow ischemia, glucose uptake was 59% lower (P < 0.001) in female, but the same as controls in male, GK rat hearts. Consequently, recovery of contractile function during reperfusion was 30% lower (P < 0.05) in female, but the same as controls in male GK rat hearts. We conclude that the aging female type 2 diabetic rat heart has increased insulin resistance and greater susceptibility to ischemic injury, than non-diabetic or male type 2 diabetic rat hearts.
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PMID:Gender differences in hypertrophy, insulin resistance and ischemic injury in the aging type 2 diabetic rat heart. 1527 24

We investigated the potential role of atorvastatin, given at reperfusion, to improve survival of the ischemic/reperfused myocardium by activation of p44/42 MAPK and p38 MAPK with its downstream effector, HSP27. We have previously shown that atorvastatin attenuates lethal reperfusion-induced injury via activation of the phosphatidyl inositol 3-kinase (PI3K) prosurvival signaling pathway. In this study we hypothesize that other prosurvival kinases may also be implicated in this protection. Langendorff-perfused mouse hearts were subjected to 35 minutes of global ischemia followed by 30 minutes of reperfusion, and either infarct size or the levels of phosphorylated AKT, p44/42 MAPK, p38 MAPK, and HSP27 were analyzed. Atorvastatin was administered during reperfusion only. We used wortmannin to block PI3K/AKT, U0126 to block p44/42 MAPK, and SB203580 to prevent the phosphorylation of p38 MAPK and HSP27. Atorvastatin significantly reduced infarct size (32.96 +/- 3.4% versus 51.27 +/- 2.79% in controls, P < 0.05). This protection was abrogated by wortmannin (48.38 +/- 4.28%), U0126 (52.58 +/- 7.58), and SB203580 (49.37 +/- 4.16%). Western blot analysis confirmed significant phosphorylation of AKT, p44/42 MAPK, p38 MAPK, and HSP27 following administration of atorvastatin during reperfusion and abrogation of the respective phosphorylation in the presence of their specific inhibitors. Atorvastatin given at reperfusion attenuates lethal reperfusion-induced injury by the phosphorylation of multiple prosurvival pathways involving not only PI3K/AKT but also p44/42 MAPK, p38 MAPK, and HSP27.
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PMID:Atorvastatin and myocardial reperfusion injury: new pleiotropic effect implicating multiple prosurvival signaling. 1572 50

We investigated the importance of the phosphoinositide3-kinase (PI3K) pathway in CA1 and dentate gyrus (DG) areas of hippocampus by exposing organotypic cultures to LY294002, a PI3K inhibitor, or to oxygen and glucose deprivation (OGD) for up to 21 hours. LY294002 induced increased propidium iodide (PI) uptake and caspase 3/7 activity in both regions, with a faster onset in DG. In contrast, cultures exposed to 60 min of OGD showed a PI uptake only in the CA1 area, beginning 13 h after the insult and increasing until 21 h. We did not observe any significant changes in AKT phosphorylation and immunocontent in CA1 or DG areas of organotypic cultures exposed to OGD, suggesting that the phosphorylation of this protein at Ser-473 is unrelated to the cellular damage induced by ischemia. Our results suggest that the inhibition of the PI3K pathway does not mimic the cell death profile observed with an ischemic model.
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PMID:Cellular death in hippocampus in response to PI3K pathway inhibition and oxygen and glucose deprivation. 1601 79

Ischemic preconditioning (IPC), a brief period of ischemia and reperfusion (I/R), generates profound but transient protection against a subsequent prolonged ischemic episode. The serine-threonine kinase Akt has been shown to mediate IPC, and Akt activation is negatively regulated by the phosphatase PTEN, but whether PTEN activity is modulated by IPC has not been investigated. When isolated, perfused rat hearts were subjected to an IPC stimulus consisting of 15-minute ischemia and 30-minute reperfusion (I-15/R-30), PTEN protein levels and activity were decreased, and levels of phospho-AKT were increased, relative to nonischemic hearts. Hearts subjected to IPC demonstrated improved recovery of cardiac function when subsequently subjected to I-30/R-45 as compared with hearts subjected to I-30/R-45 without prior IPC. When hearts were subjected to I-15 followed by R-30, R-60, or R-120, PTEN reaccumulated gradually and its activity was restored. Phospho-Akt levels at R-120 were decreased and these hearts were no longer protected against injury when subjected to I-30/R-45. Wortmannin administration during reperfusion blocked Akt activation and PTEN reaccumulation. In ischemic hearts, PTEN was rapidly degraded. Pretreatment with proteasome inhibitor MG132 blocked ischemia-induced degradation of PTEN and blocked IPC. Reperfusion following I-15 induced oxidation of the remaining PTEN, leading to Akt activation. Perfusion of H2(O2) was sufficient to induce Akt activation. Thus, loss of PTEN activity leads to induction of IPC and feedback mechanisms designed to ensure that Akt activation is transient are responsible for decay of IPC.
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PMID:PTEN activity is modulated during ischemia and reperfusion: involvement in the induction and decay of preconditioning. 1691 96

Ischemic preconditioning, the most powerful protection against infarction, activates PI3Kinase (PI3K)/AKT and P42/44MAPK. Pioglitazone, a thiazolidinedione and PPARgamma receptor agonist used in Type II diabetes treatment, has been shown to activate these kinase cascades. We therefore hypothesized that pioglitazone could protect the myocardium when given prior to myocardial ischemia/reperfusion injury. Langendorff perfused rat hearts underwent 40 minutes of stabilization then 35 minutes of regional ischemia and 120 minutes of reperfusion (control) or Pioglitazone (1, 2, 5, and 10 microM)-given before ischemia. Additional groups underwent the same protocol but with either PI3K inhibitors (15 microM LY294002 or 100 nM wortmannin) or P42/44MAPK inhibitors (10 microM U0126 or 10 microM PD98059) given either during stabilization or at reperfusion. Infarct size was determined as a percentage of risk zone (I/R%). Pioglitazone (2 microM) significantly reduced I/R% compared with control (25.4 +/- 3.1 versus 47.3 +/- 3.4; P < 0.05). This protection was abolished by PI3K inhibitors (pioglitazone+LY294002 46.5 +/- 5.0, pioglitazone + wortmannin 48.8 +/- 4.6 versus pioglitazone alone 25.4 +/- 3.1; P < or = 0.05) but not by P42/44MAPK inhibitors (pioglitazone+U0126 30.7 +/- 5.7, pioglitazone + PD98059 28.5 +/- 6.3 versus pioglitazone alone 25.4 +/- 3.1; P < or = 0.05) given in stabilization. However when the inhibitors were given at reperfusion, the protection was abrogated by blocking either pathway (pioglitazone+LY294002 49.8 +/- 3.1, pioglitazone+U0126 48.7 +/- 3.7 versus pioglitazone alone 25.4 +/- 3.1; P < or = 0.05). In conclusion pioglitazone induced significant protection against ischemia/reperfusion injury when administered prior to ischemia. This protection appears to involve PI3K and P42/44MAPK.
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PMID:Pioglitazone mimics preconditioning in the isolated perfused rat heart: a role for the prosurvival kinases PI3K and P42/44MAPK. 1630 7

Previous studies showed that insulin antagonizes AMP-activated protein kinase activation by ischemia and that protein kinase B might be implicated. Here we investigated whether the direct phosphorylation of AMP-activated protein kinase by protein kinase B might participate in this effect. Protein kinase B phosphorylated recombinant bacterially expressed AMP-activated protein kinase heterotrimers at Ser(485) of the alpha1-subunits. In perfused rat hearts, phosphorylation of the alpha1/alpha2 AMP-activated protein kinase subunits on Ser(485)/Ser(491) was increased by insulin and insulin pretreatment decreased the phosphorylation of the alpha-subunits at Thr(172) in a subsequent ischemic episode. It is proposed that the effect of insulin to antagonize AMP-activated protein kinase activation involves a hierarchical mechanism whereby Ser(485)/Ser(491) phosphorylation by protein kinase B reduces subsequent phosphorylation of Thr(172) by LKB1 and the resulting activation of AMP-activated protein kinase.
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PMID:Insulin antagonizes ischemia-induced Thr172 phosphorylation of AMP-activated protein kinase alpha-subunits in heart via hierarchical phosphorylation of Ser485/491. 1634 11

Erythropoietin (EPO) is a hormone that is neuroprotective in models of neurodegenerative diseases. This study examined whether EPO can protect against neuronal death in the CA1 region of the rat hippocampus following global cerebral ischemia. Recombinant human EPO was infused into the intracerebral ventricle either before or after the induction of ischemia produced by using the four-vessel-occlusion model in rat. Hippocampal CA1 neuron damage was ameliorated by infusion of 50 U EPO. Administration of EPO was neuroprotective if given 20 hr before or 20 min after ischemia, but not 1 hr following ischemia. Coinjection of the phosphoinositide 3 kinase inhibitor LY294002 with EPO inhibited the protective effects of EPO. Treatment with EPO induced phosphorylation of both AKT and its substrate, glycogen synthase kinase-3beta, in the CA1 region. EPO also enhanced the CA1 level of brain-derived neurotrophic factor. Finally, we determined that ERK activation played minor roles in EPO-mediated neuroprotection. These studies demonstrate that a single injection of EPO ICV up to 20 min after global ischemia is an effective neuroprotective agent and suggest that EPO is a viable candidate for treating global ischemic brain injury.
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PMID:Erythropoietin protects CA1 neurons against global cerebral ischemia in rat: potential signaling mechanisms. 1651 66


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