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 purpose of this study was to determine whether the energy metabolism of an experimental rodent sarcoma was selectively depressed by the combination of inhibition of glycolysis and respiration. In vivo phosphorus-31 nuclear magnetic resonance spectroscopy was used to monitor the response of tumor or brain high-energy phosphate compounds to insulin hypoglycemia, rhodamine 123, or both agents in fasting rats with subcutaneous methylcholanthrene-induced sarcomas. Insulin or rhodamine 123 alone produced a similar 50% to 60% reduction in tumor adenosine triphosphate (ATP) concentration compared with controls injected with saline solution (p less than 0.05, one-way analysis of variance [ANOVA]). The combination of insulin plus rhodamine 123 resulted in a 90% reduction of tumor ATP concentration, which was significantly different from the effect of either agent alone (p less than 0.05, one-way ANOVA). Brain phosphocreatine and ATP concentrations were unchanged by these agents. Administration of dimethyl sulfoxide (DMSO)/glycerol, the vehicle for rhodamine, produced a 35% reduction of tumor ATP, which was similar to the effect of insulin alone but significantly different from rhodamine. The combination of DMSO/glycerol plus insulin hypoglycemia resulted in a 70% reduction in tumor ATP, which was significantly elevated compared with the combination of rhodamine plus insulin. Glucose deprivation induced by insulin, and combined with the inhibition of oxidative phosphorylation, produces an additive depression of tumor energetics. The drug vehicle DMSO/glycerol significantly depresses tumor energy metabolism, presumably because of its DMSO component, which may explain the previously reported antineoplastic efficacy of this solvent. Combinations of inhibitors directed at different points of tumor metabolism produced an enhanced depression of tumor energetics, whereas host tissue was protected.
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PMID:Inhibition of tumor high-energy phosphate metabolism by insulin combined with rhodamine 123. 304 41

Fatty acids are known to increase the severity of injury during acute myocardial ischemia. In this study, we determined the effects of a carnitine palmitoyltransferase I inhibitor, ethyl 2-[6-(4-chlorophenoxy)hexyl]oxirane-2-carboxylate (Etomoxir) on reperfusion recovery of fatty acid perfused hearts. Following a 25-minute period of global ischemia, isolated working hearts reperfused with 1.2 mM palmitate, 11 mM glucose exhibited depressed function compared to hearts perfused with 11 mM glucose alone. A low dose of Etomoxir (10(-9) M) decreased long chain acylcarnitine and long chain acyl-coenzyme A (CoA) levels but did not prevent depressed function. In contrast, a high dose of Etomoxir (10(-6) M) prevented the palmitate-induced depression of function but did not decrease myocardial long chain acylcarnitine or long chain acyl-CoA levels. At this high dose of Etomoxir, oxygen consumption per unit work was decreased during reperfusion recovery, and ATP and creatine-phosphate levels were significantly higher after reperfusion. In aerobic hearts not subjected to ischemia, Etomoxir (10(-6) M) increased glucose oxidation both in the presence and absence of palmitate, while 10(-9) M Etomoxir had no effect. In these aerobic hearts, only the low dose of Etomoxir decreased long chain acylcarnitine and long chain acyl-CoA levels. These data demonstrate that Etomoxir (10(-6) M) increases functional recovery of fatty acid perfused ischemic hearts. This protection is unrelated to changes in levels of long chain acylcarnitines but may be due to increased glucose use by the reperfused heart, resulting in decreased oxygen consumption per unit work.
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PMID:Etomoxir, a carnitine palmitoyltransferase I inhibitor, protects hearts from fatty acid-induced ischemic injury independent of changes in long chain acylcarnitine. 319 71

The selective vulnerability of pyramidal neurons in the CA1 hippocampal region in ischemic rat brain may be preceded by regional alterations of energy metabolism during early reperfusion. We measured ATP, phosphocreatine (PCr), and glucose in paramedian and lateral CA1 and in an area showing little postischemic cell loss, CA2. ATP levels in paramedian CA1 were depressed immediately after 30 min of ischemia (P less than or equal to 0.02) and remained abnormal after 2 hr of reperfusion (P less than or equal to 0.05). PCr was reduced substantially in both subdivisions of CA1 immediately after ischemia (P less than or equal to 0.04) but returned to normal levels after 2 hr. Glucose levels were depressed in paramedian CA1 and CA2 after ischemia (P less than or equal to 0.02) but corrected with reperfusion. We determined approximately P, the sum of ATP and PCr, in separate experiments investigating regional differences in consumption of high-energy phosphate metabolites during complete ischemia. The approximately P levels of rats subjected to 30 min of reversible ischemia followed by 2 hr of reperfusion showed a different pattern of regional differences from those seen in sham-ischemic animals (P less than or equal to 0.01), indicating a persistent depression of metabolic rate in CA1 during reperfusion. We conclude that regional depletion of high-energy phosphates and alteration of metabolic rate may contribute to the selective vulnerability of the CA1 region during brain ischemia.
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PMID:Regional depletion of adenosine triphosphate, phosphocreatine, and glucose in ischemic hippocampus. 322 10

Isolated hamster hearts were perfused with 2% ethanol for 30 min and then reequilibrated with control medium. One group of hamsters was pretreated with verapamil. Another group received diltiazem. Myocardial verapamil levels were 9.5 +/- 0.7 mg/g dry wt; diltiazem levels were 22 +/- 7 mg/g dry wt. Energy metabolites were assessed by using 31P NMR standardized with high-pressure liquid chromatography of freeze-clamped tissue. Intracellular calcium was measured by atomic absorption spectrophotometry, marking the extracellular space with K(CoEDTA). After 30 min of perfusion, untreated hamster hearts showed a 74% decrease in developed pressure, a marked increase in end-diastolic pressure, a decrease of ATP from 9.8 to 8.8 mmol, and an increase of Pi from 6.7 to 9.8 mmol, but no change of phosphocreatine (PCr) or intracellular pH (pHi). Verapamil pretreatment partially prevented cardiac depression during alcohol perfusion. Whereas diltiazem had no protective effect. After reequilibration, developed pressure and oxygen consumption significantly exceeded control values. ATP decreased to 8 mmol; pHi, PCr, and Pi showed no significant change. Verapamil-pretreated hearts showed better performance than untreated hearts without change in PCr and Pi, whereas ATP dropped slightly to 8.7 mmol. Thus, functional cardiac depression resulting from acute alcohol exposure is reversible. Increased intracellular calcium levels during alcohol exposure normalized after the removal of alcohol. There was no major change in high-energy phosphates during alcohol exposure or after the removal of alcohol. Verapamil protects the heart from functional depression during alcohol exposure without affecting energy resources.
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PMID:Reversibility of acute alcohol cardiac depression: 31P NMR in hamsters. 335 Feb 37

Isolated hearts from normal and cardiomyopathic hamsters (160 to 180 days of age) were perfused through the aorta and assessed by echocardiographic and 31P-NMR (nuclear magnetic resonance) techniques. A decreased left ventricular systolic pressure in cardiomyopathic hamsters was associated with diminished cardiac size and left ventricular wall thickness. However, the ratio of inner/outer cross-sectional area and estimated left ventricular volume at any given left ventricular weight was significantly higher, indicating relative left ventricular chamber enlargement in cardiomyopathic hamsters. Left ventricular volumes were increased with an intraventricular balloon. Gradual inflation of the balloon resulted in increments of left ventricular systolic and developed stress that rose to the same values in both groups. At this point, the normalized stress-strain relationship was approximately two times steeper for cardiomyopathic hamsters, while at lower strain values the diastolic stress in cardiomyopathic hamsters was less than in controls, possibly due to cardiac dilatation. Almost the same degree of dilatation was induced in control hearts by the acute addition of 1% alcohol, but it was not followed by increased diastolic stiffness. Examination of hearts by 31P-NMR techniques revealed a decreased phosphocreatine/inorganic phosphate (PCr/Pi) ratio in the cardiomyopathic hamsters that progressed further with balloon inflation and was associated with a relative fall in PCr and adenosine triphosphate (ATP) content. Results suggest increased diastolic stiffness in cardiomyopathic hamsters, which was not seen in acute cardiac depression with alcohol. Diastolic volume overload with increased wall stress is probably the major factor contributing to increased diastolic stiffness early in the cardiomyopathy.
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PMID:Increased left ventricular diastolic stiffness in the early phase of hereditary cardiomyopathy. 341 91

Experiments are described which suggest that the loss of force generating capacity seen during fatigue from intermittent, submaximal voluntary contractions of the quadriceps muscle cannot be explained by any of the usual factors thought to be responsible for fatigue. During the first 30 min of intermittent contractions at 30% MVC the force generated periodically by a brief test train of 50 Hz stimulation and by brief maximal voluntary contractions both declined by 50%. Yet no significant changes were seen in the muscle lactate, ATP or phosphocreatine. Glycogen depletion was confined only to the type I and type IIA fibres, with less than 10% totally depleted. The depletion patterns indicated that the type IIAB and type IIB motor units were not recruited during the first 30 min. The central nervous system appeared to remain capable of generating full muscle activation since the force from maximal voluntary efforts declined in parallel with that from 50 Hz stimulation. We suggest that, in this type of fatigue, the loss of force may be largely due to impaired excitation/contraction coupling. This possibility is supported by the disproportionate depression of the twitches recorded between contractions compared with that from 50 Hz stimulation (low frequency fatigue). The single unit EMG recordings suggest that, in sustained and repeated submaximal contractions, muscle contractile failure is compensated by recruitment of additional motor units rather than by rate coding of those already active. During intermittent contractions large increases in the surface EMG were associated with only modest increases in firing rates. In sustained contractions when the EMG was held constant the discharge rates declined in parallel with the force. In constant force contractions involving about 35% muscle contractile failure no changes in discharge rates were seen despite substantial increases in EMG.
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PMID:Fatigue of submaximal static contractions. 347 Oct 51

Alcoholic depression of left ventricular function was produced in normal hamsters by the administration of increasing concentrations of alcohol in drinking water (up to 50%) for 6 months. The result was assessed by phosphorus-31 nuclear magnetic resonance of isolated perfused hearts and high-pressure liquid chromatography of freeze-clamped tissues. Hemodynamic data and myocardial oxygen consumption were also monitored. Alcoholic hamsters had significantly higher inorganic phosphate and lower ATP levels, while maintaining normal intracellular pH, phosphocreatine, and creatine. Although coronary flow and oxygen consumption were maintained at normal levels, hamsters ingesting 50% ethanol had significantly lower left ventricular developed pressure and dP/dt. Treatment with verapamil during long-term ethanol consumption prevented the development of these metabolic and functional abnormalities. It is hypothesized that alcohol produces membrane abnormalities leading to adverse ion flux, and that these are largely prevented by concurrent administration of verapamil.
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PMID:The preventive effect of verapamil on ethanol-induced cardiac depression: phosphorus-31 nuclear magnetic resonance and high-pressure liquid chromatographic studies of hamsters. 356 6

Phosphorus-31 magnetic resonance (31P MR) spectroscopy was used to obtain serial in vivo measurements of cerebral adenosine triphosphate (ATP), phosphocreatine (PCr), inorganic phosphate (Pi), and intracellular pH levels in rats during temporary global cerebral ischemia and reperfusion. Three groups of 4 rats each that recovered from permanent bilateral vertebral artery occlusion were placed in a MR spectrometer and subjected to remotely controlled bilateral carotid artery occlusion lasting 6, 15, or 30 minutes followed by 1 hour of reperfusion. Four additional rats that developed systemic hypotension (2 during a 6-minute occlusion and 2 during a 15-minute occlusion) were also studied. 31P MR spectra were obtained in each rat before, during, and after ischemia. Rats in which MR spectra showed metabolic recovery underwent a second occlusion followed by reperfusion and sacrifice. In the 12 normotensive rats, metabolic alterations began within 3 minutes after the onset of global ischemia. By the end of the occlusion period, cerebral ATP had decreased by 20 to 100% in 10 rats and PCr had decreased by 15 to 75% in all 12; Pi increased by 25 to 240%. The mean intracellular pH decreased from 7.33 to 6.9 +/- 0.6. The degree of metabolic deterioration during ischemia was not related to the duration of occlusion. During reperfusion, ATP, PCr, Pi, and intracellular pH returned to normal in 4 rats; 5 rats had partial metabolic recovery, and 3 had minimal or transient metabolic recovery followed by progressive deterioration. All rats that developed systemic hypotension had a decrease in ATP, PCr, and intracellular pH and an increase in Pi during the initial occlusion. Each had transient partial recovery in ATP during reperfusion, and 2 had slight recovery of PCr. The onset of hypotension was followed by depletion of these metabolites, progressive increase in Pi, and progressive intracellular acidosis. All rats that deteriorated metabolically after reversal of carotid occlusion died by the end of the reperfusion period or soon after. The 8 rats that recovered from the first occlusion were subjected to a second period of ischemia, during which each rat showed severe depletion of metabolites. During the second reperfusion, only 1 rat showed significant metabolic recovery, which lasted only 30 minutes and was followed by progressive deterioration. Severe global cerebral ischemia was associated with a progressive decline in both ATP and PCr, whereas less complete ischemia seemed to be characterized by stabilization or recovery of ATP and continued depression of PCr.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Sequential in vivo measurement of cerebral intracellular metabolites with phosphorus-31 magnetic resonance spectroscopy during global cerebral ischemia and reperfusion in rats. 369 5

The biochemical mechanism of acute contractile failure in the hypoxic rat heart was investigated using phosphorus nuclear magnetic resonance to measure intracellular acidosis and the concentrations of phosphocreatine, adenosine triphosphate (ATP), and inorganic phosphate while cardiac mechanical function was simultaneously monitored. The cytosolic free [ADP] was calculated from the creatine kinase equilibrium expression. Mechanical activity, phosphocreatine and ATP concentrations, and intracellular pH all decreased after the onset of hypoxic perfusion. Neither a reduction in ATP concentration nor limitation in its rate of production contributed to the early contractile failure. Calculations suggest only a modest (approximately 10%) difference in cytosolic free energies of ATP hydrolysis. Neither the time course nor the extent of depression of mechanical function correlated well with intracellular acidosis. In conjunction with other observations, these results were consistent with the view that the myocardial inotropic state may be directly responsive to the ambient PO2. The overall rate of ATP turnover was assessed from measurements of oxygen utilisation and lactate production in both normoxic and hypoxic hearts. Surprisingly, despite more than an 80% reduction in mechanical activity during hypoxia, no significant decrease in the rate of ATP utilisation was noted during hypoxia. This suggests that unidentified non-contractile processes may hydrolyse ATP at relatively higher rates during hypoxia.
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PMID:Biochemical mechanisms of acute contractile failure in the hypoxic rat heart. 370 37

The objective of the present study was to assess metabolic changes in the neocortex and hippocampus of well-oxygenated or moderately hypoxic rats in which fluorothyl-induced seizures were sustained for 5 or 20 min, or which were allowed recovery periods of 5, 15, or 45 min following cessation of 20-min seizure activity by withdrawal of the convulsant gas. Sustained fluorothyl-induced seizures were found to cause metabolic alterations qualitatively and quantitatively similar to those previously observed with other commonly used convulsants. Thus, although the phosphorylation state of the adenine nucleotide pool remained only moderately perturbed, if at all, there were decreases in tissue concentrations of phosphocreatine and glycogen, and increases in those of cyclic AMP, lactate, and pyruvate, with a calculated fall in intracellular pH of about 0.15 units and a rise in the cytoplasmic NADH/NAD+ ratio. The enhanced metabolic rate was reflected in a marked reduction in the tissue-to-plasma glucose concentration ratio. Induced moderate hypoxia (arterial PO2 40-50 mm Hg) had no metabolic effect after 5 min of seizures but moderately increased lactate concentrations after 20 min (from about 10 to about 15 mumol X g-1). On cessation of seizure discharge cyclic AMP and phosphocreatine concentrations normalized already within 5 min, whereas glycogen and lactate concentrations normalized more slowly. In the neocortex (but not the hippocampus) postepileptic tissue-to-plasma glucose concentration ratios rose above control, probably reflecting metabolic depression. The results suggest that intracellular pH promptly returned to control, and that postepileptic alkalosis developed. They also suggest that some elevation of the NADH/NAD+ ratio persisted even after 45 min of recovery.
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PMID:Cerebral metabolic changes during and following fluorothyl-induced seizures in ventilated rats. 398 40


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