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

The effects of severe regional myocardial ischemia in vivo and total ischemia in vitro on energy production by anaerobic glycolysis in dogs are described. The critical feature of ischemic injury in terms of the adenine nucleotide pool is the fact that the demand of severely or totally ischemic tissue for HEP exceeds the capacity of the damaged myocytes to produce it. The consequent depletion of ATP to very low levels and the destruction of the adenine nucleotide pool are associated with, or may be casually related to, the loss of cellular viability.
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PMID:High energy phosphates, anaerobic glycolysis and irreversibility in ischemia. 686 79

In summary, myocardial ischemia is associated with the progressive depletion of HEP and the adenine nucleotide pool. Anaerobic glycolysis is essential for energy production in the severely ischemic myocyte and accounts for 80% of the HEP utilized by severely or totally ischemic myocardium. However, the rate of anaerobic glycolysis is too slow to prevent the progressive depletion of ATP. Anaerobic glycolysis stops entirely prior to the complete utilization of glycogen. Without remaining HEP stores or HEP production from anaerobic glycolysis, HEP utilization no longer can occur. This point occurs in vivo after about 40 minutes of severe ischemia and coincides with the onset of cell death. Modest depletion of ATP due to brief periods of transient ischemia may not cause cell death, but is associated with partial depletion of the adenine nucleotide pool. The slow repletion of this pool may be responsible for prolonged depression of contractile function.
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PMID:Energy metabolism in the reversible and irreversible phases of severe myocardial ischemia. 694 1

The response of the myocardium to prolonged or chronic ischemia may differ from the well documented changes that occur acutely subsequent to the onset of hypoperfusion. Therefore, we have examined in an instrumented canine model and using spatially localized spectroscopy to achieve transmural differentiation, the myocardial HEP and Pi levels as well as wall thickening in situ during prolonged ischemia induced by sustained coronary artery stenosis. The results demonstrate that subtotal coronary artery occlusion causes immediate and transmurally inhomogeneous decreases in the myocardial HEP content and increase in the Pi/CP ratio; however, during prolonged mild hypoperfusion, metabolic changes occur which lead to statistically significant recovery of CP (but not ATP) and disappearance of Pi despite the persistence of reduced blood flow and oxygen supply. Upon release of the occlusion, the previously ischemic muscle recovered blood flow, and some (but not all) of its preischemic contractile function without parallel changes in the HEP levels. It is concluded that normal HEP and Pi levels cannot be equated with either the absence of underperfusion or insensitivity of NMR spectroscopy to ischemia. Rather, it is imperative that both functional and spectroscopic measurements are performed simultaneously to distinguish between ischemic myocardium which is adapted versus unadapted to the hypoperfusion.
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PMID:Responses of myocardial high energy phosphates and wall thickening to prolonged regional hypoperfusion induced by subtotal coronary stenosis. 837 71

The mitochondrial ATPase enzyme accounts for roughly 35-50% of the overall energy demand that leads to ATP depletion under conditions of severe myocardial ischemia. In larger mammalian hearts, this energy squandering action of the ATPase is modulated by an endogenous inhibitor protein. The present studies were undertaken to characterize the time course of inhibition of the mitochondrial ATPase in canine myocardium under conditions of severe regional ischemia in vivo. In addition, we determined if the energy sparing effects of ischemic preconditioning (PC) can be explained by persistent inhibition of the mitochondrial ATPase enzyme. The circumflex coronary artery was ligated for 1.5 min (n = 4), 5 min (n = 6), or 15 min (n = 5). In a separate group (n = 7), hearts were preconditioned by four 5-min periods of ischemia each followed by 5 min of reperfusion. Sub-mitochondrial particles were prepared from the sub-endocardial zone of the ischemic and non-ischemic regions and were assayed for oligomycin-sensitive ATPase activity. ATPase activity was reduced to about 79% at 1.5 min and to approximately 55% at 5 and 15 min of ischemia, relative to non-ischemic tissue from the same heart. The rate of HEP utilization slowed concurrently with the development of ATPase inhibition. In preconditioned myocardium, ATPase activity was not significantly different from control myocardium from the same heart. We conclude that the early inhibition of the mitochondrial ATPase activity slows the utilization of high energy phosphate and thereby serves as an important endogenous cardioprotective mechanism. Nevertheless, altered activity of the ATPase is not the explanation of the energy sparing effect of ischemic preconditioning.
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PMID:Effect of reversible ischemia on the activity of the mitochondrial ATPase: relationship to ischemic preconditioning. 874 18

Reperfusion injury is believed to contribute to the pathophysiology of ischemic cell death, but the precipitating factors have yet to be completely elucidated. The goal of this study was to examine if reflow-induced secondary energy failure is a component in the events that lead to cell death following increasing periods of middle cerebral artery (MCA) occlusion in Wistar rats. Discrete sections within the MCA distribution were dissected and analyzed for high-energy phosphates and glucose. Regional cerebral blood flow was determined by [14C]-iodoantipyrine technique in representative groups. The levels of ATP + P-creatine were initially depressed at the end of the focal ischemia and the concentrations in the penumbra were unchanged for up to 8 h after 2 h of ischemia which contrasts with response in the ischemic core, striatum, and penumbra where the HEP generally recovered to values near those of control only to decrease with increasing periods of reflow. The possibility of a rebound ischemia in secondary energy failure (SEF) was precluded by regional CBF values and concentrations of glucose that were significantly higher than the threshold for an ischemic effect. The depletion of cellular energy stores following SEF strongly indicates that the evolution of infarct during reflow results from loss of ATP and its synthesis.
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PMID:Ischemic cell death: dynamics of delayed secondary energy failure during reperfusion following focal ischemia. 1208 36

Electrical cell uncoupling via gap junction closure is assumed to cause characteristic changes of the passive dielectric spectrum of ischemic heart tissue. In order to find an independent evidence for this assumption, we analysed heart tissue during ischemia, measured the open state of gap junctions by means of dye transfer and correlated this parameter with the time course of the dielectric permittivity. The hearts were pre-ischemically arrested by perfusion with Ringer solution containing 20 mmol/L of potassium (group KCL, n=10). This solution was also used with the addition of two gap junction blockers, either 3 mmol/L heptanol (group HEP, n=4) or 20 micromol/L palmitoleic acid (group PA, n=7). During subsequent ischemia at 21.0+/-0.5 degrees C, we monitored the passive dielectric permittivity spectrum and the spread of dye. After a sigmoidal increase the dielectric permittivity reached an upper plateau at 61+/-22 min of ischemia in KCL, at 45+/-7 min in PA, and already during perfusion at 2+/-1 min in group HEP. At the beginning of ischemia, dye migrated to neighbouring cells in groups KCL and PA but not in HEP. In KCL and PA, the intercellular diffusion of dye stopped after 64+/-26 and 40+/-11 min of ischemia, respectively. Our results suggest that the sigmoidal increase in dielectric permittivity and the reduction of dye diffusion depend on a common mechanism, namely gap junction closure.
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PMID:Surface contact measurement of electrical cell uncoupling in the mouse heart during ischemia. 1596 2

Beta-blockers have been considered for decades as effective agents in preventing coronary events in hypertensive patients. Actually, the scrutiny of the available data arises some doubts over the real value of this pharmacological class. In primary prevention, the clinical benefits of beta-blockers are poorly documented: the studies conducted against placebo (MRC, IPPPSH...) did not show any significant differences regarding the rate of coronary events (except within non smokers); moreover, the beneficial effect of propranolol in preventing sudden deaths and silent myocardial infarctions has been reported byjust one retrospective analysis. Likewise in HAPPHY study, the comparison with diuretics did not emphasize a clear superiority of one of both classes; the better effect of metoprolol regarding overall mortality and fatal coronary events was shown in the pecular subset MAPHY, only. Furthermore, in elderly people, HEP, MRC OA and STOP studies did not find any significant effect of beta-blockers in preventing coronary events, as compared with placebo. However, SHEP study, which involved patients older than 60 years with isolated systolic hypertension receiving first a diuretic, then a beta-blocker(atenolol) in 1/4 of the cases, demonstrated a significant reduction versus placebo both in strokes and in coronary events. Finally, in UKPDS, CAPP, LIFE and CONVINCE studies, atenolol turned out to have a similar efficacy as captopril, losartan and verapamil, in preventing ischemic heart disease. Among the numerous published meta-analyses, that of Psaty pointed out the absence of a primary cardioprotective effect by beta-blockers; more recently, that of Carlberg, emphasized atenolol given alone as the first-line drug to fail in significantly reducing coronary events and strokes. In secondary prevention, some more convincing data may be found in the literature, regarding post myocardial infarction patients (meta-analyses of Staessen, 1982, Yusuf, 1985 and Soriano, 1997), as well as those with stable angina (BIP study in diabetics) or silent ischemia (ASIST study: significant reduction in number and duration of ischemic events by atenolol). Moreover, INVEST study recently showed atenolol and verapamil to have an equivalent efficacy in the hypertensive patients with stable coronary artery disease. Last, hypertension should be reminded as resulting in many cases of heart failure, a pathology where beta-blockers have clearly demonstrated their beneficial effects.
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PMID:[Do beta-blockers prevent coronary events in hypertensive patients?]. 1623 74

Oxidative stress plays an important role in various renal and hepatic pathologies, and reduction of oxidative stress-induced processes is an important protective strategy in tissues of diverse origins against harmful stimuli. Pituitary adenylate cyclase activating polypeptide (PACAP) is a well-known cytotrophic and cytoprotective peptide. PACAP promotes cell survival in numerous cells and tissues exposed to various stimuli. Protective effects of PACAP have been shown in the kidney, but it is not known whether PACAP is protective against oxidative stress in renal cells. Little is known about the effects of PACAP in the liver. The aim of the present study was to investigate whether PACAP is protective against oxidative stress in primary rat kidney cell culture and whether PACAP has any effect on cell survival in human WRL-68 hepatocytes and HEP-G2 hepatocellular carcinoma cells subjected to oxidative stress. Cells were exposed to various concentrations of H(2)O(2) with or without PACAP co-treatment and cell viability was evaluated with the 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyl tetrazolium bromide test (MTT). We found that oxidative stress induced a significant decrease in cell viability in both cell lines. PACAP could dose-dependently increase the percentage of living cells in kidney cells, but it failed to do so in hepatocytes. Given the survival-promoting effects of PACAP against oxidative stress in rat kidney, we conducted a further experiment to determine whether PACAP influences the markers of oxidative stress in vivo. We have proven earlier that PACAP was effective in kidney ischemia/reperfusion injury in vivo. In the present study, we determined the levels of the oxidative stress marker malondialdehyde and the activity of the scavenger molecules glutathione (GSH) and superoxide dismutase (SOD) following kidney ischemia/reperfusion in rats. We found that PACAP significantly increased the level of GSH and counteracted the marked reduction of SOD activity after ischemia/reperfusion in vivo. In summary, the present study showed that while PACAP was able to significantly increase the cell survival in primary kidney cell cultures exposed to oxidative stress, possibly involving interaction with the endogenous scavenger system, it failed to influence the viability of normal or cancerous hepatocytes.
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PMID:Effects of PACAP on oxidative stress-induced cell death in rat kidney and human hepatocyte cells. 2067 2

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