UMLS:C0022116 - FACTA Search

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

Renal proximal tubule cells are particularly vulnerable to injury following ischemia and reperfusion due to their marginal blood supply and high metabolic demand. Renal adenosine receptor (AR) modulations preserve renal function following ischemic-reperfusion injury in vivo. Numerous intracellular proteins have been shown to be pivotal in the signal transduction of adenosine-mediated protection in vivo. However, characterization of the expression and function of ARs and intracellular proteins mediating protection in human proximal tubular cells is lacking. Therefore, we studied the ARs in an immortalized human renal proximal tubular cell (HK-2) line to determine if this cell line could function as an in vitro model of AR coupling. Immunoblotting with AR subtype specific antibodies detected all 4 subtypes of ARs (A(1), A(2a), A(2b) and A(3)), several isoforms of protein kinase C (alpha, delta, and epsilon and several heterotrimeric G-protein isoforms (G(i)alpha, G(s)alpha and G(q)alpha). The A(1) and A(3) ARs inhibited forskolin- stimulated adenylyl cyclase activity. The A(1) ARs also activated 42/44-kD ERK mitogen-activated protein kinases via G(i)- and tyrosine kinase-dependent pathways. The A(2a) ARs stimulated adenylyl cyclase activity and activated the protein kinase A-->CREB pathway. Chronic (48 h) treatment with a nonselective AR antagonist (8-phenyltheophylline) upregulated A(1), A(2a) ARs and G(i)alpha. Conversely, chronic stimulation of HK-2 ARs with a nonselective AR agonist (N-ethylcarbamoyladenosine) downregulated all 4 subtypes of ARs and G(s)alpha. Based on these findings, HK-2 cells are a useful in vitro model to study the signaling cascades of AR-mediated renal protection.
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PMID:Characterization of adenosine receptors in human kidney proximal tubule (HK-2) cells. 1238 23

Ischemic tolerance is well known as a neuroprotective effect of pre-conditioning ischemia against delayed neuronal death, however, the mechanism or mechanisms underlying this effect are not fully understood. We investigated the relationship between CREB and ischemic tolerance in gerbil hippocampal CA1 neurons using CRE decoy oligonucleotide. Sublethal ischemia led to an increase in the level of CREB phosphorylation in CA1 regions while lethal ischemia did not. Experiments with NG108-15 cells showed that adding CRE decoy oligonucleotide to culture media significantly inhibited the cell growth rate. The administration of CRE decoy oligonucleotide into gerbil cerebral ventricle decreased CREB-DNA binding activity to 38% of the control. Pre-treatment with CRE decoy oligonucleotide 24 h before the induction of ischemic tolerance decreased CA1 neuronal cell survival to 21% of the control. The present findings suggest that a CREB-mediated transcription system is necessary for the induction of ischemic tolerance.
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PMID:CREB is required for acquisition of ischemic tolerance in gerbil hippocampal CA1 region. 1288 79

p140 Ras-GRF1 and p130 Ras-GRF2 constitute a family of calcium/calmodulin-regulated guanine-nucleotide exchange factors that activate the Ras GTPases. Studies on mice lacking these exchange factors revealed that both p140 Ras-GRF1 and p130 Ras-GRF2 couple NMDA glutamate receptors (NMDARs) to the activation of the Ras/Erk signaling cascade and to the maintenance of CREB transcription factor activity in cortical neurons of adult mice. Consistent with this function for Ras-GRFs and the known neuroprotective effect of CREB activity, ischemia-induced CREB activation is reduced in the brains of adult Ras-GRF knockout mice and neuronal damage is enhanced. Interestingly, in cortical neurons of neonatal animals NMDARs signal through Sos rather than Ras-GRF exchange factors, implying that Ras-GRFs endow NMDARs with functions unique to mature neurons.
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PMID:Developmentally regulated role for Ras-GRFs in coupling NMDA glutamate receptors to Ras, Erk and CREB. 1502 45

Excessive elevation of intracellular calcium level seems to be a trigger of ischemic neuronal injury. Calcium/calmodulin (CaM)-dependent protein kinase kinase (CaM-KK) is an upstream kinase for CaM kinase IV (CaM-KIV) that was reported to prevent apoptosis through phosphorylation of CREB (cyclic AMP responsive element-binding protein). We here observed that CaM-KK could directly activate Akt, thereby preventing apoptosis in cultured cells. Then we examined changes in Akt and CaM-KIV activities in gerbil forebrain ischemia. In 5-min-ischemia-caused delayed neuronal death in hippocampal CA1 neurons, Akt and CaM-KIV activities were decreased after reperfusion. On the other hand, during induction of ischemic tolerance, Akt activity gradually and persistently increased in the CA1 neurons with transient increase in CREB phosphorylation. Inhibition of Akt activity with wortmannin or CREB-DNA binding with CRE-decoy injection resulted in failure of generation of ischemic tolerance. These results indicated activation of Akt and CaM-KIV play important roles in induction of the ischemic tolerance. Activation of CaM-KK may provide a new strategy for overcoming the ischemic stress.
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PMID:Functional proteins involved in regulation of intracellular Ca(2+) for drug development: role of calcium/calmodulin-dependent protein kinases in ischemic neuronal death. 1576 42

Cerebral ischemic/hypoxic preconditioning (I/HPC) is a phenomenon of endogenous protection that renders the brain tolerant to sustained ischemia/hypoxia. This profound protection induced by I/HPC makes it an attractive target for developing potential clinical therapeutic approaches. However, the molecular mechanism of I/HPC is unclear. Cyclic AMP (cAMP) response element binding protein (CREB), a selective nuclear transcriptional factor, plays a key role in the neuronal functions. Phosphorylation of CREB on Ser-133 may facilitate its transcriptional activity in response to various stresses. In the current study, we observed the changes in CREB phosphorylation (Ser-133) and protein expression in the brain of auto-hypoxia-induced HPC mice by using Western blot analysis. We found that the levels of phosphorylated CREB (Ser-133), but not protein expression of CREB, increased significantly (p<0.05) in the hippocampus and the frontal cortex of mice after repetitive hypoxic exposure (H2-H4, n=6 for each group), when compared to that of the normoxic (H0, n=6) or hypoxic exposure once group (H1, n=6). In addition, a significant enhancement (p<0.05) of CREB phosphorylation (Ser-133) could also be found in the nuclear extracts from the whole hippocampus of hypoxic preconditioned mice (H2-H4, n=6 for each group). These results suggest that the phosphorylation of CREB might be involved in the development of cerebral hypoxic preconditioning.
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PMID:Enhanced phosphorylation of cyclic AMP response element binding protein in the brain of mice following repetitive hypoxic exposure. 1637 94

Cilostazol was developed as a selective inhibitor of cyclic nucleotide phosphodiesterase 3 (PDE3). The anti-platelet and vasodilator properties of cilostazol have been extensively characterized and considered to contribute to the variety of clinical effects such as intermittent claudication and recurrent stroke. In this review, the novel action mechanism (s) of cilostazol are overviewed with the focus on the action of cilostazol in in vitro and in vivo studies as a maxi-K channel opener targeting anti-apoptotic signaling pathways. Under treatment with cilostazol (10 mg/kg intravenously or 30 mg/kg orally), a significant reduction in cerebral infarct area was evident in rats subjected to ischemia/reperfusion. Increase in cyclic AMP and decrease in TNF-alpha levels were identified in the ipsilateral cortex under treatment with cilostazol accompanied by decreased Bax formation and cytochrome c release with increased Bcl-2 production in the penumbral area as well as in the in vitro human umbilical endothelial cells. Cilostazol suppressed TNF-alpha-induced decrease in viability of SK-N-SH (human neuroblastoma) cells and HCN-1A (human cortical neuron) cells in association with decrease in PTEN phosphorylation and increase in Akt/CREB phosphorylation with suppression of DNA fragmentation, all of which were antagonized by iberiotoxin, a maxi-K(+) channel blocker. Further, cilostazol prevented TNF-alpha-induced PTEN phosphorylation and apoptotic cell death via increased CK2 phosphorylation in the SK-N-SH cells. Cilostazol increased K(+) current in SK-N-SH cells by opening the maxi-K channels. Thus, it was suggested that the action of cilostazol to promote cell survival was ascribed to the maxi-K channel opening-coupled upregulation of CK2 phosphorylation and downregulation of PTEN phosphorylation with resultant increased phosphorylation of Akt and CREB. These in vitro data were confirmed in the in vivo results of rats subjected to focal transient ischemic damage.
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PMID:Cilostazol: therapeutic potential against focal cerebral ischemic damage. 1647 48

A molecular explanation for why some neurons are more vulnerable than others to ischemic injury has long remained elusive. In this issue of Neuron, Peng et al. propose that CREB-dependent downregulation of the RNA editing enzyme ADAR2, resulting in defective Q/R editing of AMPA receptor GluR2 subunits and increased availability of calcium and zinc-permeable death-promoting AMPA receptors, underlies the vulnerability of some neuronal populations to ischemia.
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PMID:Censoring the editor in transient forebrain ischemia. 1650 39

ADAR2 is a nuclear enzyme essential for GluR2 pre-mRNA editing at Q/R site-607, which gates Ca2+ entry through AMPA receptor channels. Here, we show that forebrain ischemia in adult rats selectively reduces expression of ADAR2 enzyme and, hence, disrupts RNA Q/R site editing of GluR2 subunit in vulnerable neurons. Recovery of GluR2 Q/R site editing by expression of exogenous ADAR2b gene or a constitutively active CREB, VP16-CREB, which induces expression of endogenous ADAR2, protects vulnerable neurons in the rat hippocampus from forebrain ischemic insult. Generation of a stable ADAR2 gene silencing by delivering small interfering RNA (siRNA) inhibits GluR2 Q/R site editing, leading to degeneration of ischemia-insensitive neurons. Direct introduction of the Q/R site edited GluR2 gene, GluR2(R607), rescues ADAR2 degeneration. Thus, ADAR2-dependent GluR2 Q/R site editing determines vulnerability of neurons in the rat hippocampus to forebrain ischemia.
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PMID:ADAR2-dependent RNA editing of AMPA receptor subunit GluR2 determines vulnerability of neurons in forebrain ischemia. 1650 47

Dentate gyrus is usually assumed to be resistant to ischemia. However, the mechanisms underlying this functional plasticity are not fully understood. Herein, we aimed at identifying a neuroprotective mechanism in the dentate gyrus of the adult rat after global ischemia. Cyclic AMP response element (CRE)-binding protein (CREB), brain-derived neurotrophic factor (BDNF) and calcium/calmodulin-dependent protein kinase IV (CaMKIV) are known to be mediators of neuronal survival and plasticity. Involvement of CaMKIV, BDNF and CREB in ischemic resistance was therefore examined using intracerebroventricular injections of pharmacological agents such as inhibitors, antibodies and consensus oligonucleotides followed by immunohistochemical and Western blot analysis. We provide evidence that ischemia triggers activation of a biphasic pathway during the resistance period of dentate neurons: (1) CaMKIV mediates the early phosphorylation of CREB which drives a prominent synthesis of BDNF; (2) this BDNF synthesis, in turn, induces a second peak of CREB phosphorylation which is required for the maintenance of BDNF synthesis. In addition, we show that: (1) impairment of these transduction signals by the pharmacological agents causes tissular damages and apoptotic deaths in the post-ischemic dentate gyrus; (2) some similar disturbances also occur beyond the resistance period in the dentate gyrus of untreated ischemic rats; (3) these disturbing effects are mainly observed in the suprapyramidal dentate subfield. Collectively, the present results suggest that activation of the CaMKIV/CREB/BDNF pathway plays principally an early protective role in the suprapyramidal subfield of the dentate gyrus.
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PMID:Identification of a biphasic signaling pathway involved in ischemic resistance of the hippocampal dentate gyrus. 1699

Exercise increases brain-derived neurotrophic factor (BDNF), phosphorylated cAMP response-element binding protein (pCREB), insulin-like growth factor (IGF-I) and synapsin-I, each of which has been implicated in neuroplastic processes underlying recovery from ischemia. In this study we examined the temporal profile (0, 30, 60 and 120 min following exercise) of these proteins in the hippocampus and sensorimotor cortex following both motorized (60 min) and voluntary (12 h) running, 2 weeks after focal ischemia. Our goal was to identify the optimal training paradigms (intensity, duration and frequency) needed to integrate endurance exercise in stroke rehabilitation. Therefore we utilized telemetry to measure changes in heart rate with both exercise methods. Our findings show that although the more intense, motorized running exercise induced a rapid increase in BDNF, the elevation was more short-lived than with voluntary running. Motorized running was also associated with higher levels of synapsin-I in several brain regions but simultaneously, a more pronounced increase in the stress hormone, corticosterone. Furthermore, both forms of exercise resulted in decreased phosphorylation of CREB and downregulation of synapsin-I in hippocampus beginning 30 to 60 min after the exercise bout. This phenomenon was more robust after motorized running, the method that generated higher heart rate and serum corticosterone levels. This immediate stress response is likely specific to acute exercise and may diminish with repeated exercise exposure. The present data illustrate a complex interaction between different forms of exercise and proteins implicated in neuroplasticity. For clinical application, frequent lower intensity exercise episodes (as in voluntary running wheels), which may be safer to provide to patients with stroke, has a delayed but sustained effect on BDNF that may support brain remodeling after stroke.
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PMID:Exercise intensity influences the temporal profile of growth factors involved in neuronal plasticity following focal ischemia. 1738 14

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