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:C0011570 (depression)
172,036 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effect of dipyridamole (DYP) on postischemic myocardial function and metabolism was studied using the isolated rabbit heart model. Twenty-one isolated rabbit heart preparations were divided into two groups: KH (control N = 10) were reperfused after 24 min normothermic hyperkalemic arrest with modified Krebs-Henseleit buffer (KH) while DYP (N = 11) were reperfused with KH and 5 X 10(-6) M DYP. Hearts were analyzed for myocardial function (DP, developed pressure, +dp/dt, -dp/dt) and metabolic function (ATP, CrP, ADP, AMP, purines, and lactate levels). Data analysis revealed significant reperfusion depression in DYP myocardial function compared with KH (P less than 0.05): DP (42 +/- 6 vs 89 +/- 7 mm Hg), +dp/dt (390 +/- 21.6 vs 1227 +/- 48.4), and -dp/dt (280 +/- 20.1 vs 677 +/- 19.8). Comparison of DYP to KH metabolic parameters was also significantly different (P less than 0.05): ATP (5.8 +/- 0.7 vs 9.5 +/- 1.4), ADP (2.1 +/- 0.2 vs 3.2 +/- 0.6), CrP (9.6 +/- 0.3 vs 17.2 +/- 1.3). Tissue purines (adenosine and inosine) were significantly elevated (P less than 0.01) in the DYP group, while coronary sinus purines and lactate loss were similar. Thus, the data suggest that DYP, present during postischemic reperfusion, depresses myocardial function by inhibiting adenosine phosphorylation, thereby decreasing the generation of high-energy phosphates without increased substrate loss or ischemia.
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PMID:Metabolic and functional cardiac impairment after reperfusion with persantine. 186 75

Freezing lesions have been shown to cause a depression in glucose use, particularly in cortical areas of the brain ipsilateral to the lesion, and this effect was interpreted to be caused by a depressed functional activity in these regions. The metabolic status of the affected areas has not been previously examined and could be a factor in the observed changes in local CMRglc. In frozen-cut and dried sections taken from brains 3 days after freeze lesioning, discrete pieces of the median and lateral parietal cortex, striatum, hippocampus, and hypothalamus were dissected and analyzed for ATP, P-creatine, glucose, and lactate. CMRglc measurements were also made in the same animals. The concentrations of the four metabolites were significantly increased in the lesioned hemisphere, with the most predominant effects observed in the cortical areas that exhibited the greatest depression in CMRglc. The enriched metabolite profile, particularly in the cortical areas, is consistent with the hypothesis that decreased glucose use in the traumatized brain is caused by diminished need rather than by decreased supply of energy. Because the lumped constant in the operational equation of the deoxyglucose method for determination of CMRglc is a function of brain glucose content and decreases gradually in hyperglycemia, the degree of metabolic depression in cortical areas of lesioned hemisphere probably have been somewhat overestimated in this and previous publications. However, provisionally recalculated local CMRglc in the lesioned hemisphere remain significantly lower than in the contralateral hemisphere and in the normal brain.
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PMID:Effects of focal cortical freezing lesion on regional energy metabolism. 187 17

Myocardial blood flow (MBF), tissue ATP content, mitochondrial respiratory function and mitochondrial ultrastructure were examined in 62 adult mongrel dogs weighing 6-14 kg in which acute myocardial ischemia had been produced under anesthesia. The left anterior descending coronary artery was dissected free for ligation before the first diagonal branch. MBF was measured before coronary ligation and 60 min following ligation. Then, samples of myocardium were taken and subjected to tissue ATP content assay, mitochondrial respiratory function measurement respiratory control index (RCI) and rate of oxygen consumption in state III (QO2III); and electron microscopic examination. Mitochondrial morphologic injury was evaluated quantitatively according to Schaper's criteria. MBF was significantly correlated with tissue ATP content, mitochondrial respiratory function and mitochondrial ultrastructural change. When MBF was less than 20 ml/min/100g, tissue ATP content (1.86 +/- 1.21 mumol/g wet weight) and mitochondrial respiratory function (RCI 2.51 +/- 0.59) were significantly lower than in the non-ischemic area (ATP 4.52 +/- 1.11, RCI 3.82 +/- 0.37), and mitochondrial ultrastructural injury had deteriorated significantly at an MBF below 40 ml/min/100 g. In conclusion, our findings show that when MBF is reduced, mitochondrial ultrastructural changes precede the depression in mitochondrial oxidative phosphorylation.
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PMID:Ischemic myocardial mitochondrial function and ultrastructural change--influence of regional myocardial blood flow. 188 Sep 5

It is well established that cardiac dysfunction independent of atherosclerosis develops in both humans and animals with diabetes mellitus. The etiology is complex, involving many different processes, one of which may be increased fatty acid utilization and/or a concomitant decrease in glucose utilization by the diabetic heart. We compared control and 6-wk streptozotocin (STZ)-induced diabetic isolated working rat hearts and were able to demonstrate cardiac dysfunction in the diabetic as assessed by depressed heart rate (HR), heart rate peak systolic pressure product (HR.PSP), left ventricular developed pressure (LVDP), and rate of pressure rise (+dP/dt). Paralleling depressed cardiac function in the diabetic were hyperglycemia, hyperlipidemia, and decreased body weight gain compared with age-matched controls. The addition of free fatty acids, in the form of 1.2 mM palmitate, to the isolated working heart perfusate had no effect on either control or diabetic heart function, with the exception of a depressive effect on +dP/dt of diabetic hearts. But diabetic hearts perfused with palmitate-containing perfusate plus the glucose oxidation stimulator dichloroacetate (DCA) showed a marked improvement in function. HR and HR.PSP in spontaneously beating hearts, as well as LVDP and +dP/dt in paced hearts were all restored to control heart values in diabetic hearts perfused in the presence of DCA. Creatine phosphate and ATP levels were similar under all perfusion conditions, thus eliminating energy stores as the limiting factor in heart function. Results indicate that DCA will acutely reverse diabetic cardiac function depression. Therefore glucose oxidation depression in the diabetic heart may be a significant factor contributing to cardiac dysfunction.
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PMID:Effects of free fatty acids and dichloroacetate on isolated working diabetic rat heart. 192 88

An extensive investigation of the cardiac actions of phorbol esters and the potential role of the Na(+)-H+ exchanger in those actions was carried out using isolated rat hearts. Sixty minutes of perfusion with 10(-9) M phorbol 12-myristate 13-acetate (PMA) or 10(-8) M phorbol 12,13-dibutyrate (PDBu) produced marked cardiac dysfunction associated with depressed contractility, coronary constriction, and elevated resting tension, the latter being particularly evident with PMA. These effects were also associated with disturbances in tissue levels of energy metabolites manifested primarily by a reduction in ATP and an elevation in lactate. Furthermore, both phorbols produced a sustained stimulation of the release of 6-ketoprostaglandin F1 alpha (6-keto PGF1 alpha), the hydrolysis product of prostacyclin (prostaglandin I2). Amiloride, an inhibitor of the Na(+)-H+ exchanger, significantly attenuated the loss in contractility and elevation in coronary pressure as well as the stimulated release of 6-keto PGF1 alpha but was without effect on elevations in resting tension or on changes in energy metabolites. Increasing concentrations of PMA or PDBu 10-fold resulted in a much more rapid and severe (greater than 80% loss in contractile function after 30 minutes) effect that was nonetheless qualitatively identical to that seen with the lower concentrations of phorbol. However, the effects were not prevented by amiloride. Surprisingly, 4 alpha-phorbol 12,13-didecanoate (alpha-PDD, 10(-6) M), which does not activate protein kinase C, was found to be a potent inhibitor of cardiac function (greater than 80% loss in contractility and 50% increase in resting tension) after 30 minutes of perfusion, although these effects were not associated with changes in levels of energy metabolites or with elevations in coronary pressure. Similarly, none of the actions of this compound were attenuated by amiloride. In contrast to the sustained effects of other phorbols on 6-keto PGF1 alpha release, the effect of alpha-PDD was transient (less than 10 minutes). In all hearts studied, the marked depression in contractile function caused by all phorbol esters occurred in the absence of any ultrastructural changes. 4 alpha-Phorbol (10(-6) M), which does not activate protein kinase C, was without effect on any parameter studied. Our results demonstrate very complex effects of phorbol esters on numerous parameters of cardiac function, including an amiloride-sensitive component that occurs at low concentrations. The latter observation suggests the involvement of Na(+)-H+ exchange activation, possibly occurring as a consequence of protein kinase C stimulation, in mediation of the effects of phorbol esters at low concentrations.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Concentration-dependent effects of protein kinase C-activating and -nonactivating phorbol esters on myocardial contractility, coronary resistance, energy metabolism, prostacyclin synthesis, and ultrastructure in isolated rat hearts. Effects of amiloride. 193 40

The possible involvement of ATP, in addition to noradrenaline, in nicotine-evoked vasoconstriction was studied in branches of the ileocolic artery of the rabbit. For measurement of vasoconstrictor responses, the arteries were simultaneously incubated and perfused. For measurement of the release of [3H]-noradrenaline, they were preincubated with [3H]-noradrenaline and then superfused. Prazosin (0.1 mumol/l) antagonized the constrictor effect of exogenous noradrenaline but not that of exogenous ATP. Desensitization of P2X-receptors by alpha, beta-methylene ATP markedly attenuated the effect of exogenous ATP but not that of noradrenaline. The presumed P2-purinoceptor antagonist suramin (100 mumol/l) reduced the maximal contraction obtainable with noradrenaline and shifted the concentration-response curve for the constrictor effect of alpha, beta-methylene ATP to the right, but did not change the effect of ATP. Nicotine elicited monophasic vasoconstrictions which faded while nicotine was still in the medium. The concentration-response curve was bell-shaped with an EC50 of 50 mumol/l and a maximal effect at 180 mumol/l, and the exposure time-response curve indicated that responses were maximal after 5 s of contact of nicotine (180 mumol/l) with the tissue. Neither prazosin 0.1 mumol/l nor desensitization by alpha,beta-methylene ATP changed the time course of the response to nicotine, but both depressed the magnitude of the responses over the whole concentration- and exposure time-response curves. The depression was greater with prazosin than with alpha,beta-methylene ATP. Desensitization by alpha,beta-methylene ATP or addition of suramin 100 mumol/l practically abolished the prazosin-resistant part of the response. The effect of nicotine was blocked by hexamethonium as well as by sympathetic denervation by 6-hydroxydopamine.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Adrenergic and purinergic cotransmission in nicotine-evoked vasoconstriction in rabbit ileocolic arteries. 194 11

Using an isolated perfused rat heart preparation, the protective effects of lidocaine and diltiazem on ischemic derangements of myocardial energy metabolism were studied with 31P-nuclear magnetic resonance spectroscopy. The hearts were perfused with a solution containing lidocaine (4.27 x 10(-5), 12.80 x 10(-5) M) or diltiazem (2.22 x 10(-7), 2.22 x 10(-6) M) for 15 min prior to the induction of global ischemia. The decrease in myocardial oxygen consumption rate, assessed as the product of heart rate and left ventricular systolic pressure (HR x LVP), was greater in diltiazem-treated than in lidocaine-treated hearts. Diltiazem and lidocaine significantly retarded the fall in myocardial pH during ischemia and improved ATP recovery after reperfusion. There was a good correlation between suppression of HR x LVP observed before induction of ischemia and decreased drop in pH during the early phase of ischemia in the diltiazem-treated groups (r = -0.78, p less than 0.01), but not in the lidocaine-treated groups. These results indicate that the beneficial effects of diltiazem on the ischemic myocardium are due primarily to the cardio-depressant effects. The beneficial effects of lidocaine cannot, however, be explained solely on the basis of the depression of oxygen consumption.
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PMID:Effects of lidocaine on ischemic myocardial metabolism assessed by 31P-NMR in the isolated perfused rat heart. 195 18

The effect of severe insulin-induced hypoglycemia on the activity of the pyruvate dehydrogenase enzyme complex (PDHC) was investigated in homogenates of frozen rat cerebral cortex during burst suppression EEG, after 10, 30, and 60 min of isoelectric EEG, and after 30 and 180 min and 24 h of recovery following 30 min of hypoglycemic coma. Changes in PDHC activity were correlated to levels of labile organic phosphates and glycolytic metabolites. In cortex from control animals, the rate of [1-14C]pyruvate decarboxylation was 7.1 +/- 1.3 U/mg of protein, or 35% of the total PDHC activity. The activity was unchanged during burst suppression EEG whereas the active fraction increased to 81-87% during hypoglycemic coma. Thirty minutes after glucose-induced recovery, the PDHC activity had decreased by 33% compared to control levels, and remained significantly depressed after 3 h of recovery. This decrease in activity was not due to a decrease in the total PDHC activity. At 24 h of recovery, PDHC activity had returned to control levels. We conclude that the activation of PDHC during hypoglycemic coma is probably the result of an increased PDH phosphatase activity following depolarization and calcium influx, and allosteric inhibition of PDH kinase due to increased ADP/ATP ratio. The depression of PDHC activity following hypoglycemic coma is probably due to an increased phosphorylation of the enzyme, as a consequence of an imbalance between PDH phosphatase and kinase activities. Since some reduction of the ATP/ADP ratio persisted and since the lactate/pyruvate ratio had normalized by 3 h of recovery, the depression of PDHC most likely reflects a decrease in PDH phosphatase activity, probably due to a decrease in intramitochondrial Ca2+.
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PMID:Changes in pyruvate dehydrogenase complex activity during and following severe insulin-induced hypoglycemia. 198 96

The basis of early ischemic contractile failure was investigated in perfused ferret hearts at 27 degrees C. Isovolumic left ventricular developed pressure fell by more than 50% within 30 seconds of the onset of total global ischemia and reached zero by 5 minutes. Monophasic action potential recordings revealed no decrease in excitability during this period. Phosphorus nuclear magnetic resonance spectra obtained at 30-second resolution showed no significant changes in inorganic phosphate or phosphocreatine during the first 30 seconds of ischemia. Intracellular pH (pHi) and ATP changed even more slowly; therefore, none of these metabolites could account for the rapid fall in force. To gauge the contribution of intravascular pressure, we compared ordinary aortic flow occlusion with tissue-level ischemia induced by massive coronary microembolization at the level of the precapillary arterioles. Functional depression developed significantly more slowly in the microembolized hearts, despite accumulation of inorganic phosphate and protons comparable with that in ordinary ischemia. After microembolization, the time course of functional depression reflected much more closely the concomitant inorganic phosphate and pHi changes. Thus, our results provide novel evidence supporting the importance of vascular collapse in the mechanism of early ischemic contractile failure.
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PMID:Mechanism of early ischemic contractile failure. Inexcitability, metabolite accumulation, or vascular collapse? 198 66

Oxygen free radicals have been implicated as mediators of cellular injury in ischemia-reperfusion. Since intracellular Ca(2+)-overload has been considered to play a crucial role in ischemia-reperfusion injury, this study was undertaken to examine the effects of oxygen free radicals on Ca(2+)-stimulated Mg(2+)-dependent ATPase activities and ATP-dependent Ca2+ accumulation in rat cardiac sarcolemmal membranes in vitro. Isolated rat heart sarcolemmal membranes were incubated with xanthine (X) + xanthine oxidase (XO) and assayed for Ca(2+)-pump activities. X + XO inhibited the Ca(2+)-pump activities in a time-dependent manner; a significant inhibition of Ca(2+)-stimulated ATPase activity was seen after one min of incubation. Superoxide dismutase showed a protective effect on depression in Ca(2+)-pump activities due to X + XO. To understand the involvement of sulfhydryl groups changes in causing depression of Ca(2+)-pump activities, the effects of oxygen free radicals on heart sarcolemmal sulfhydryl groups were also investigated. Heart sarcolemmal sulfhydryl groups were decreased by X + XO in a time-dependent manner. Superoxide dismutase showed a protective effect on sulfhydryl group depression caused by X + XO. N-ethylmaleimide, a sulfhydryl reagent, showed inhibitory effect on Ca(2+)-pump activities both in a time-, and a dose-dependent manner; dithiothreitol and cysteine prevented changes in Ca(2+)-pump activities caused by N-ethylmaleimide. The inhibitory effect of X + XO on Ca(2+)-pump activities were also prevented by the addition of dithiothreitol or cysteine. A significant correlation between changes in sarcolemmal Ca(2+)-stimulated ATPase activity and sarcolemmal sulfhydryl groups was seen.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Inhibition of heart sarcolemmal Ca(2+)-pump activity by oxygen free radicals. 202 66


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