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Query: UMLS:C0022116 (
ischemia
)
91,303
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The purpose of this study was to determine the roles of cytosolic and ecto 5'-nucleotidase in myocardial ischemia-induced increases in interstitial fluid (ISF) adenosine. Pentobarbital anesthetized, open chest pigs were instrumented with two microdialysis fibers in the distally perfused bed of the left anterior descending (LAD) coronary artery to estimate ISF metabolites. Fibers in control hearts were perfused with standard Krebs buffer. In two additional groups, after collecting one dialysate sample with normal Krebs, fibers were perfused with buffer supplemented with either L-homocysteine thiolactone (5 mM) or the ecto 5'-nucleotidase inhibitor
alpha, beta
-methylene adenosine 5'-diphosphate (AOPCP, 5 mM). Hearts were then submitted to 60 minutes LAD occlusion and two hours reperfusion. Dialysate nucleosides and AMP were measured by high performance liquid chromatography. The local delivery of homocysteine did not alter preischemic dialysate adenosine concentration (0.30 +/- 0.04 microM) compared to pre-homocysteine infusion (0.39 +/- 0.04 microM) or control hearts (0.36 +/- 0.04 microM), but AOPCP significantly decreased preischemic dialysate adenosine levels (from 0.36 +/- 0.02 to 0.14 +/- 0.03 microM). During LAD occlusion both homocysteine and AOPCP reduced dialysate levels by approximately 50%. At 30 minutes
ischemia
dialysate adenosine concentrations were 19.47 +/- 2.72, 11.41 +/- 2.44, and 7.93 +/- 1.01 microM in control, homocysteine, and AOPCP hearts, respectively. AOPCP significantly increased dialysate AMP levels; at 60 minutes
ischemia
AMP levels were 6.22 +/- 2.97 microM in control hearts and 38.60 +/- 5.69 microM in AOPCP treated hearts. These results suggest that both cytosolic and ecto 5'-nucleotidase contribute to
ischemia
-induced increases in ISF adenosine in porcine myocardium.
...
PMID:Evidence that cytosolic and ecto 5'-nucleotidases contribute equally to increased interstitial adenosine concentration during porcine myocardial ischemia. 1042 38
Currently at least 11 protein kinase C (PKC) isoforms have been identified and may play different roles in cell signaling pathways leading to changes in cardiac contractility, the hypertrophic response, and tolerance to myocardial ischemia. The purpose of the present study was to test the hypothesis that responses of individual PKC isoforms to distinct pathological stimuli were differentially regulated in the adult guinea pig heart. Isolated hearts were perfused by the Langendorff method and were exposed to
ischemia
, hypoxia, H(2)O(2), or angiotensin II. Hypoxia and
ischemia
induced translocation of PKC isoforms
alpha, beta
(2), gamma, and zeta, and H(2)O(2) translocated PKC isoforms
alpha, beta
(2), and zeta. Angiotensin II produced translocation of
alpha, beta
(2), epsilon, gamma, and zeta isoforms. Inhibition of phospholipase C with tricyclodecan-9-yl-xanthogenate (D609) blocked hypoxia-induced (
alpha, beta
(2), and zeta) and angiotensin II-induced (
alpha, beta
(2), gamma, and zeta) translocation of PKC isoforms. Inhibition of tyrosine kinase with genistein blocked translocation of PKC isoforms by hypoxia (beta(2) and zeta) and by angiotensin II (beta(2)). By contrast, neither D609 nor genistein blocked H(2)O(2)-induced translocation of any PKC isoform. We conclude that hypoxia-induced activation of PKC isoforms is mediated through pathways involving phospholipase C and tyrosine kinase, but oxidative stress may activate PKC isoforms independently of Galphaq-phospholipase C coupling and tyrosine kinase signaling. Because oxidative stress may directly activate PKC, and PKC activation appears to be involved in human heart failure, selective inhibition of the PKC isoforms may provide a novel therapeutic strategy for the prevention and treatment of this pathological process.
...
PMID:Responses of cardiac protein kinase C isoforms to distinct pathological stimuli are differentially regulated. 1043 69
Various polypeptide growth factors are generally considered to be involved in the regulation of the nephrogenic process both after acute renal injury and during renal development. Because platelet-derived growth factor B-chain (PDGF-B) has been reported to be expressed in immature tubulus of the developing kidney, PDGF-B could play a role in the process of tubulogenesis. We examined the expression of PDGF-B and PDGF receptors alpha and beta and their localization in kidneys after
ischemia
/reperfusion injury. The mRNA expressions of PDGF-B, PDGFR-alpha, and PDGFR-beta were enhanced after injury. In the immunohistochemical analysis and/or in situ hybridization, PDGF-B and PDGFR-
alpha, beta
were expressed after reperfusion in the S3 segment of the proximal tubuli, where they were not expressed normally. The expressions of proliferating cell nuclear antigen and vimentin were concomitantly observed with PDGF-B and PDGFRs in the tubular cells of injured S3 segment at 48 hours after injury. Next, the inhibition of the PDGF-B/PDGFRs axis with either Trapidil or Ki6896, which was found to inhibit the phosphorylation of PDGFR-beta selectively, resulted in a rise of serum creatinine, higher mortality rate, abnormal regenerating process, and suppressed proliferation of tubular epithelial cells. These findings suggest that the PDGF-B/PDGFRs axis is involved in the proliferation of injured tubular cells and plays an important role in the regeneration of tubular cells from acute ischemic injury.
...
PMID:Role of PDGF B-chain and PDGF receptors in rat tubular regeneration after acute injury. 1055 Mar 25
Systemic hyperglycemia and hypercapnia severely aggravate ischemic brain damage when instituted prior to cerebral ischemia. An aberrant cell signaling following
ischemia
has been proposed to be involved in ischemic cell death, affecting protein kinase C (PKC) and the calcium calmodulin kinase II (CaMKII). Using a cardiac arrest model of global brain
ischemia
of 10 min duration, we investigated the effect of hyperglycemia (20 mM) and hypercapnia (pCO(2) 300 mmHg) on the subcellular redistribution of PKC (
alpha, beta
, gamma) and CaMKII to synaptic membranes and to the microsomes, as well as the effect on PKC activity. We confirmed the marked translocation of PKC and CaMKII to cell membranes induced by
ischemia
, concomitantly with a decrease in the PKC activity in both the membrane fraction and cytosol. Hyperglycemia and hypercapnia markedly enhanced the translocation of PKC-gamma to cell membranes while other PKC isoforms were less affected. There was no effect of acidosis on PKC activity, or on translocation of CaMKII to cell membranes. Our data strongly suggest that the enhanced translocation of PKC to cell membranes induced by hyperglycemia and hypercapnia may contribute to the detrimental effect of tissue acidosis on the outcome following
ischemia
.
...
PMID:Acidosis enhances translocation of protein kinase C but not Ca(2+)/calmodulin-dependent protein kinase II to cell membranes during complete cerebral ischemia. 1059 93
Relatively mild ischemic insult can lead to delayed neuronal cell death in vulnerable brain regions. We provide evidence that the protein composition of the postsynaptic densities (PSD) undergoes rapid modification after 15 min postdecapitative as well as 5 min transient global
ischemia
. We observed a significant increase in cPKC and nPKC protein content in the postischemic PSD. Of the calcium-regulated PKC isoforms, the alpha and beta subtypes increase in PSD over ten times above the control values whereas gamma PKC, an isoform most abundant in the native PSD structure, shows relatively smaller changes under ischemic conditions. For the first time, the PSD membrane translocation of Ca(2+)-independent isoforms delta and epsilon is shown. The yield of the PSD protein preparation from the postischemic cortex was two times higher compared with control. This correlated with an abundant increase in electron density and changes in ultrastructure of PSD isolated from postischemic cortex. Also sections from CA1 gerbils hippocampus after transient
ischemia
showed persistent enlargement of postsynaptic densities up to 24 h of reperfusion. This was accompanied by elevation of the PSD/cytoskeleton-associated
alpha, beta
PKC immunoreactivity and other changes in neuronal and glial cell morphology typical of the early postischemic degeneration. Sustained changes in PKC composition and organization of postsynaptic membranes during and after
ischemia
may cause persistent alteration in synaptic transmission and subsequently contribute to delayed neuronal injury.
...
PMID:Isoforms of protein kinase C in postsynaptic densities after cerebral ischemia. 1116 93
To clarify the involvement of intracellular signaling pathway and calpain in the brain injury and its protection by mild hypothermia, immunoblotting analyses were performed in the rat brain after global forebrain
ischemia
and reperfusion. After 30 min of
ischemia
followed by 60 min of reperfusion, Ca2+/calmodulin-dependent kinase II (CaM kinase II) and protein kinase C (PKC)-
alpha, beta
, gamma isoforms translocated to the synaptosomal fraction, while mild hypothermia (32 degrees C) inhibited the translocation. The hypothermia also inhibited fodrin proteolysis caused by
ischemia
-reperfusion, indicating the inhibition of calpain. These effects of hypothermia may explain the mechanism of the protection against brain
ischemia
-reperfusion injury through modulating synaptosomal function.
...
PMID:Hypothermia inhibits translocation of CaM kinase II and PKC-alpha, beta, gamma isoforms and fodrin proteolysis in rat brain synaptosome during ischemia-reperfusion. 1189 78
Protein kinase C (PKC) involvement in
ischemia
-induced neuronal damage has been investigated in superfused rat cerebral cortex slices submitted to 15 min of oxygen-glucose deprivation (OGD) and in primary cultures of rat cortical neurons exposed to 100 microM glutamate (GLU) for 10 min. OGD significantly increased the total PKC activity in the slices, mostly translocated in the particulate fraction. After 1 hr of reperfusion, the total PKC activity was reduced and the translocated fraction dropped by 84% with respect to the control. Western blot analysis of OGD samples showed an increase in total beta(2) and epsilon PKC isoform levels. After reperfusion, the total levels of
alpha, beta
(1), beta(2) and gamma isoforms were significantly reduced, whereas the epsilon isoform remained at an increased level. Endogenous GLU release from OGD slices increased to about 15 times the basal values after 15 min of oxygen-glucose deprivation, and to 25 and 35 times the basal level in the presence of the PKC inhibitors staurosporine (0.1 microM) and bisindolylmaleimide (1 microM), respectively. Western blot analysis of GLU-treated cortical neurons showed a significant decrease only in the total level of beta(2) isoforms. Cell survival was reduced to 31% in GLU-treated neuronal cultures; PKC inhibitors were not able to modify this effect. These findings demonstrate that the cell response to OGD and GLU involves PKC in a complex way. The net role played by PKC during OGD may be to reduce GLU release and, consequently, neurotoxicity. The isoforms beta(2) and epsilon are affected the most and may play a significant role in the mechanisms underlying neurotoxicity/neuroprotection.
...
PMID:Protein kinase C activity, translocation, and selective isoform subcellular redistribution in the rat cerebral cortex after in vitro ischemia. 1247 14
Excitotoxicity through stimulation of N-methyl-d-aspartate (NMDA) receptors contributes to neuronal death in brain injuries, including stroke. Several lines of evidence suggest a role for protein kinase C (PKC) isoforms in NMDA excitotoxicity. We have used specific peptide inhibitors of classical PKCs (
alpha, beta
, and gamma), novel PKCs delta and epsilon, and an atypical PKCzeta in order to delineate which subspecies are involved in NMDA-induced cell death. Neuronal cell cultures were prepared from 15-day-old mouse embryos and plated onto the astrocytic monolayer. After 2 weeks in vitro the neurons were exposed to 100 micro m NMDA for 5 min, and 24 h later the cell viability was examined by measuring the lactate dehydrogenase release and bis-benzimide staining. While inhibitors directed to classical (
alpha, beta
, and gamma) or novel PKCs (delta or epsilon) had no effect, the PKCzeta inhibitor completely prevented the NMDA-induced necrotic neuronal death. Confocal microscopy confirmed that NMDA induced PKCzeta translocation, which was blocked by the PKCzeta inhibitor. The NMDA-induced changes in intracellular free Ca2+ were not affected by the peptides. In situ hybridization experiments demonstrated that PKCzeta mRNA is induced in the cortex after focal brain
ischemia
. Altogether, the results indicate that PKCzeta activation is a downstream signal in NMDA-induced death of cortical neurons.
...
PMID:Prevention of NMDA-induced death of cortical neurons by inhibition of protein kinase Czeta. 1287 85
The aim of the current study was to characterize the effects of chemical
ischemia
and reperfusion at the transductional level in the brain. Protein kinase C isoforms (
alpha, beta
(1), beta(2), gamma, delta and epsilon) total levels and their distribution in the particulate and cytosolic compartments were investigated in superfused rat cerebral cortex slices: (i) under control conditions; (ii) immediately after a 5-min treatment with 10mM NaN(3), combined with 2mM 2-deoxyglucose (chemical
ischemia
); (iii) 1h after chemical
ischemia
(reperfusion). In control samples, all the PKC isoforms were detected; immediately after chemical
ischemia
, PKC beta(1), delta and epsilon isoforms total levels (cytosol+particulate) were increased by 2.9, 2.7 and 9.9 times, respectively, while alpha isoform was slightly reduced and gamma isoform was no longer detectable. After reperfusion, the changes displayed by
alpha, beta
(1), gamma, delta and epsilon were maintained and even potentiated, moreover, an increase in beta(2) (by 41+/-12%) total levels became significant. Chemical
ischemia
-induced a significant translocation to the particulate compartment of PKC alpha isoform, which following reperfusion was found only in the cytosol. PKC beta(1) and delta isoforms particulate levels were significantly higher both in ischemic and in reperfused samples than in the controls. Conversely, following reperfusion, PKC beta(2) and epsilon isoforms displayed a reduction in their particulate to total level ratios. The intracellular calcium chelator, 1,2-bis(2-aminophenoxy)ethane-N,N,N',N'-tetraacetic acid, 1mM, but not the N-methyl-d-asparate receptor antagonist, MK-801, 1muM, prevented the translocation of beta(1) isoform observed during
ischemia
. Both drugs were effective in counteracting reperfusion-induced changes in beta(2) and epsilon isoforms, suggesting the involvement of glutamate-induced calcium overload. These findings demonstrate that: (i) PKC isoforms participate differently in neurotoxicity/neuroprotection events; (ii) the changes observed following chemical
ischemia
are pharmacologically modulable; (iii) the protocol of in vitro chemical
ischemia
is suitable for drug screening.
...
PMID:Differential activation of protein kinase C isoforms following chemical ischemia in rat cerebral cortex slices. 1696 62
Peroxisome proliferator-activated receptors (PPARs) belong to a subfamily of transcription nuclear factors. Three isoforms of PPARs have been identified:
alpha, beta
/delta and gamma, encoded by different genes and distributed in various tissues. They play important roles in metabolic processes like regulation of glucose and lipid redistribution. They also have anti-atherogenic, anti-inflammatory as well as antihypertensive functions. There is good evidence that ligands of PPARs reduce tissue injury associated with
ischemia
and reperfusion. The potential utility of PPAR ligands in
ischemia
and reperfusion will be discussed in this review.
...
PMID:Peroxisome proliferator-activated receptors ligands and ischemia-reperfusion injury. 1739 34
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