UMLS:C0011570 - FACTA Search

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

The effects of aspartate (Asp) and 2-oxoglutarate (2-OG) on metabolism and function of isolated rat heart during hypoxia and reoxygenation were studied. Hearts were subjected to oxygenated perfusion with Krebs-Henseleit buffer supplied with 11 mM glucose (20 min) and anoxic perfusion with the buffer saturated with N2 (20 min), followed by reoxygenation (30 min). The substrate concentrations in the perfusate were 3.5 mM each. The additives had no effect on the energy metabolism and function of the oxygenated heart despite a two-fold rise in myocardial Asp and 2-OG. Substrate supplementation during anoxic perfusion resulted in reduced lactate dehydrogenase release and less depression of cardiac function. Prevention of Asp, glutamate, and 2-OG degradation in hypoxic myocardium was accompanied by relief of glycolytic flux and better preservation of ATP, phosphocreatine (PCr), and total creatine (Cr). Reoxygenation without the additives after supplemented anoxic perfusion failed to improve recovery of high-energy phosphates and cardiac function compared to control. However, during reoxygenation with the additives the treated hearts showed less cell membrane damage and enhanced recovery of contractile and pump function. These effects were associated with higher myocardial contents of ATP, PCr, and adenine nucleotides and a smaller Cr loss during reoxygenation. A more effective restoration of oxidative metabolism was related to promoted glucose oxidation due to replenishment of the malate-aspartate shuttle reactants. The results substantiate the use of substrates of cytosolic aspartate aminotransferase for myocardial protection against hypoxia/reoxygenation stress.
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PMID:Substrate accessibility to cytosolic aspartate aminotransferase improves posthypoxic recovery of isolated rat heart. 758 71

We studied the action of H2O2 on the exocytosis of glutamate by cerebrocortical synaptosomes. The treatment of synaptosomes with H2O2 (50-150 microM) for a few minutes results in a long-lasting depression of the Ca(2+)-dependent exocytosis of glutamate, induced by KCl or by the K(+)-channel inhibitor 4-aminopyridine. The energy state of synaptosomes, as judged by the level of phosphocreatine and the ATP/ADP ratio, was not affected by H2O2, although a transient decrease was observed after the treatment. H2O2 did not promote peroxidation, as judged by the formation of malondialdehyde. In indo-1-loaded synaptosomes, the treatment with H2O2 did not modify significantly the KCl-induced increase of [Ca2+]i. H2O2 inhibited exocytosis also when the latter was induced by increasing [Ca2+]i with the Ca2+ ionophore ionomycin. The effects of H2O2 were unchanged in the presence of superoxide dismutase and the presence of the Fe3+ chelator deferoxamine. These results appear to indicate that H2O2, apparently without damaging the synaptosomes, induces a long-lasting inhibition of the exocytosis of glutamate by acting directly on the exocytotic process.
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PMID:Hydrogen peroxide induces a long-lasting inhibition of the Ca(2+)-dependent glutamate release in cerebrocortical synaptosomes without interfering with cytosolic Ca2+. 776 35

In vivo 31Phosphorus magnetic resonance spectroscopic imaging (31P MRSI) was performed on 20 chronic schizophrenic patients and 16 normal controls to determine if there were specific changes in high energy phosphorus and phospholipid metabolism in the frontal lobes of schizophrenic patients. Phosphorous metabolites were assessed in each of the left and right frontal as well as the left and right parietal lobes. Frontal lobe phosphorous metabolites were also correlated with severity of psychiatric symptomatology as assessed by the Brief Psychiatric Rating Scale (BPRS). Schizophrenics demonstrated higher phosphodiesters (PDE) and lower phosphocreatine (PCr) in both the left and right frontal regions compared to controls. There was also lower left frontal inorganic phosphate (Pi) in the schizophrenic group. No group differences were noted in the left or right parietal regions. In addition, right frontal PDE and right frontal PCr were highly correlated with the hostility-suspiciousness and anxiety-depression subscales of the BPRS. This study provides further support for altered frontal lobe phosphorous metabolism in schizophrenia.
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PMID:31phosphorus magnetic resonance spectroscopy of the frontal and parietal lobes in chronic schizophrenia. 782 12

There are no data concerning the functional or metabolic effects of hypoxia in vivo in smooth muscle. We have therefore used 31P-NMR spectroscopy and intra-uterine pressure measurements to examine simultaneously, in vivo, the effect of ischaemia on uterine metabolites, intracellular pH (pHi) and force. A 1-2 cm portion of uterus from day 1 postpartum anaesthetized rats was exteriorized and an NMR surface coil placed on it. A balloon catheter in the uterine lumen recorded intra-uterine pressure changes from the same area. Reversible occluders were placed around the uterine artery. Occlusion produced a decrease and then abolition of contractions, within 10 min. In four of five animals contraction was abolished within 2 min. Upon reperfusion force was rapidly restored (1 min), in all preparations. The mean level of force was significantly above control (pre-occlusion) 20-30 min after reperfusion. The NMR data showed a significant fall in [ATP] (28%) and [phosphocreatine] (34%) during occlusion. Inorganic phosphate doubled in concentration during this period. Metabolites recovered slowly upon reperfusion, taking 20-30 min to return to pre-occlusion levels. The mean pHi fell from 7.32 to 7.00 upon occlusion and was rapidly reversed upon reperfusion. The changes in pHi closely correlated with the changes in uterine force. Decreases of pHi of a similar magnitude in vitro have previously been shown to abolish contractions; thus it is suggested that during ischaemia in vivo the depression of contraction is caused by the large fall in pHi.
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PMID:An in vivo study of the effects of ischaemia on uterine contraction, intracellular pH and metabolites in the rat. 804 48

The present study was undertaken to explore how transient ischemia in rats alters cerebral metabolic capacity and how postischemic metabolism and blood flow are coupled during intense activation. After 6 h of recovery following transient forebrain ischemia 15 min in duration, bicuculline seizures were induced, and brains were frozen in situ after 0.5 or 5 min of seizure discharge. At these times, levels of labile tissue metabolites were measured, whereas the cerebral metabolic rate for oxygen (CMRO2) and cerebral blood flow (CBF) were measured after 5 min of seizure activity. After 6 h of recovery, and before seizures, animals had a 40-50% reduction in CMRO2 and CBF. However, because CMRO2 rose three-fold and CBF fivefold during seizures, CMRO2 and CBF during seizures were similar in control and postischemic rats. Changes in labile metabolites due to the preceding ischemia encompassed an increased phosphocreatine/creatine ratio, as well as raised glucose and glycogen concentrations. Seizures gave rise to minimal metabolic perturbation, essentially comprising reduced glucose and glycogen contents and raised lactate concentrations. It is concluded that although transient ischemia leads to metabolic depression and a fall in CBF, the metabolic capacity of the tissue is retained, and drug-induced seizures lead to a coupled rise in metabolic rate and blood flow.
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PMID:Functional, metabolic, and circulatory changes associated with seizure activity in the postischemic brain. 813 79

The mechanism responsible for sepsis-induced myocardial depression is not known. To determine if sepsis-induced myocardial depression is caused by inadequate free energy available for work, we studied myocardial energy metabolism in a canine model of sepsis. Escherichia coli-infected (n = 18) or sterile (n = 16) fibrin clots were implanted intraperitoneally into beagles. Myocardial function and structure was assessed using radionuclide ventriculograms, echocardiograms, and light and electron microscopy. The adequacy of energy metabolism was evaluated by comparing catecholamine-induced work increases [myocardial O2 consumption (MVO2) and rate pressure product (RPP)] with a simultaneously obtained estimate of intracellular free energy [phosphocreatine-to-adenosine triphosphate ratio (PCr:ATP)] determined by 31P-magnetic resonance spectroscopy. When compared with control animals, septic animals had a decrease in left ventricular ejection fraction (EF, P < 0.0001) on day 1 and fractional shortening (FS, P < 0.0003) on day 2 after clot implantation. On day 2, neither septic nor control animals had statistically significant decreases in PCr:ATP, despite catecholamine-induced increases in MVO2 and RPP (mean maximal increases in septic animals 135 +/- 31 and 51 +/- 10%, respectively). Light and electron microscopic findings showed that hearts of septic animals, compared with control animals, had a greater degree of morphological abnormalities. Thus, in a canine model of sepsis with alterations in myocyte ultrastructure and documented myocardial depression (decreased EF and FS), intracellular free energy levels (PCr:ATP) were maintained despite catecholamine-induced increases in myocardial work (increased MVO2 and RPP), suggesting high-energy synthetic capabilities are not limiting cardiac function.
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PMID:Myocardial energy metabolism and morphology in a canine model of sepsis. 814 77

Changes of ischemic myocardium following coronary occlusion, including active and passive functions, and adaptive changes of non-ischemic surviving myocardium have been summarized under the term "left ventricular remodeling" post myocardial infarction. An increase in left ventricular volume may be a consequence, and associated with an adverse prognosis. Although left ventricular dilatation may increase stroke volume and, thus, be compensatory at first, in about one-fifth of patients it ultimately results in progressive dysfunction and heart failure. Major determinants of this process are time, infarct size, infarct location, global left ventricular function assessed 4 days after infarction by radionuclide ejection fraction and right heart catheter (stroke volume), and morphology of the infarct-associated coronary artery. The surviving myocardium hypertrophies and may also dilate structurally. Depression of left ventricular ejection fraction chronically after the infarct is due to deterioration of wall motion of chamber segments initially classified normal by radionuclide analysis. Biochemical changes may also occur, including reduction of phosphocreatine, prolongation of time to peak Cai2+, and changes in myosin isoforms. Systemic or local humoral factors may be involved in these changes, however, clear evidence is still lacking. Perfusion of surviving myocardium may be altered under various conditions due to morphologic and functional changes of coronary vasculature. Successful prevention of heart failure and death by angiotensin converting enzyme inhibitors in asymptomatic patients with left ventricular dysfunction post-myocardial infarction has supported the pathophysiologic concepts of remodeling.
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PMID:Ventricular remodeling after myocardial infarction. Experimental and clinical studies. 835 28

We investigated the role of creatine kinase bound to sarcoplasmic reticulum membranes of fast skeletal muscle in the local regeneration of ATP and the possible physiological significance of this regeneration for calcium pump function. Our results indicate that ADP produced by sarcoplasmic reticulum Ca(2+)-ATPase is effectively phosphorylated by creatine kinase in the presence of creatine phosphate. This phosphorylation is an important function of the membrane-bound creatine kinase because accumulation of ADP has a depressive effect on Ca(2+)-uptake by sarcoplasmic reticulum vesicles. The concentration-dependent depression of Ca(2+)-uptake by ADP was especially pronounced when there was strong back inhibition by high intravesicular [Ca2+]. ATP regenerated by endogenous creatine kinase was not in free equilibrium with the ATP in the surrounding medium, but was used preferentially by Ca(2+)-ATPase for Ca(2+)-uptake. Efficient translocation of ATP from creatine kinase to Ca(2+)-ATPase, despite the presence of an ATP trap in the surrounding medium, can be explained by close localization of creatine kinase and Ca(2+)-ATPase on the sarcoplasmic reticulum membranes. These results suggest the existence of functional coupling between creatine kinase and Ca(2+)-ATPase on skeletal muscle sarcoplasmic reticulum membranes. Several factors (amount of membrane-bound creatine kinase, oxidation of SH groups of creatine kinase, decrease in [phosphocreatine]) can influence the ability of creatine kinase/phosphocreatine system to support a low ADP/ATP ratio and fuel the Ca(2+)-pump with ATP. These factors may become operative in the living cells, influencing functional coupling between creatine kinase and Ca(2+)-ATPase and may have an indirect effect on Ca(2+)-pump function before Ca(2+)-ATPase itself is affected.
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PMID:Functional coupling between sarcoplasmic-reticulum-bound creatine kinase and Ca(2+)-ATPase. 850 36

Proximate neurotoxic mechanisms during postischemic recovery may be influenced by stage of development and complicating factors such as cortical spreading depression or secondary brain insult. Using 31P nuclear magnetic resonance spectroscopy, we have monitored pH and cellular energy metabolites phosphocreatine (PCr) and ATP in the ex vivo rat cerebral cortex before, during, and after substrate and oxygen deprivation, which represents "in vitro ischemia." There were important developmental differences in resistance and response to an ischemic insult. Twenty-one-day-old (P21) rat cortical slices had no detectable beta-ATP or PCr at the end of a 20-min insult, while 7-day-old (P7) slices had 50 +/- 13.7% (mean +/- SD, n = 12) and 17 +/- 14.8% relative to preischemia levels, respectively. Postischemic depolarization resulted in age-dependent effects on PCr (p < 0.05): In the older tissue, depolarization significantly worsened the recovery of PCr, whereas in young tissue it ameliorated recovery. This amelioration could be prevented by inhibiting nitric oxide production with methylene blue (depolarization-methylene blue interaction, p < 0.05) and enhanced by administration of the nitric oxide donor glyceryl trinitrate (GTN; p < 0.01). However, in P21 tissue, GTN further exacerbated injury (age-GTN interaction, p < 0.01). Therefore, in this vascular-independent preparation, a neuronal or glial nitric oxide-dependent mechanism appears to confer improved postischemic bioenergetic recovery in the developing brain compared with the mature brain.
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PMID:Bioenergetic recovery following ischemia in brain slices studied by 31P-NMR spectroscopy: differential age effect of depolarization mediated by endogenous nitric oxide. 853 May 45

Spermatozoa are highly specialized cells, and they offer advantages for studying several basic aspects of metabolic control such as the role of adenosine triphosphate-(ATP)-homeostasis for cell function, the mechanisms of fatigue and metabolic depression, the metabolic channelling through the cytoplasm and the organization and regulation of glycolytic enzymes. Spermatozoa of four species with different reproductive modes are introduced and the first results are presented: Spermatozoa of the marine worm Arenicola marina are well adapted to external fertilization in sea water with fluctuating oxygen tension: they are motile for several hours in oxygen-free sea water, even when the ATP level is dramatically reduced. Anaerobic ATP production occurs by alanine, acetate and propionate fermentation probably by the same pathways known from somatic cells of this species. Under aerobic conditions the phosphagen system might function like a shuttle for energy-rich phosphate from mitochondria to the dynein-ATPases. Storage of turkey and carp spermatozoa for several hours without exogenous substrates and oxygen results in the degradation of phosphocreatine and ATP to inorganic phosphate and adenosine monophosphate (AMP), respectively. Despite low energy charges, stored spermatozoa of both species are capable of progressive movements. In carp spermatozoa fatigue of motility is not accompanied by the dramatic acidosis one discusses as an important effect in muscle fatigue. Energy metabolism of boar spermatozoa is typically based on glycolysis consuming extracellular carbohydrates and producing lactate and protons. The sperm seem to tolerate low intracellular pH (< 6.5). The lack of a phosphagen system (no energy shuttle from mitochondria to the distal dynein-ATPases) is probably compensated by a high glycolytic ATP-production in the mitochondria-free piece of the flagellum.
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PMID:Spermatozoa: models for studying regulatory aspects of energy metabolism. 864 86

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