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Query: UMLS:C0392674 (exhaustion)
 13,658 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Oxygenated cardioplegic solutions can deliver sufficient oxygen to support aerobic metabolism of heart tissue during cardiac arrest, but little is known about oxygen use after cardioplegic solution infusion. Exhaustion of myocardial oxygen stores after infusion of oxygenated crystalloid cardioplegic solution or Krebs-Henseleit buffer was measured in rat hearts. Since nicotinamide adenine dinucleotide accumulates when mitochondria become anaerobic, the epicardium was monitored during perfusion and ischemia. As ischemia progressed, nicotinamide adenine dinucleotide fluorescence increased, indicating exhaustion of oxygen. After buffer perfusion, at 37 degrees C, 50% of peak fluorescence was seen at 13 +/- 1 seconds and 90% at 37 +/- 3 seconds. Oxygenated cardioplegic solution increased these intervals to 57 +/- 6 and 114 +/- 9 seconds, respectively. Oxygenated cardioplegic solution at 10 degrees C increased the time to 50% fluorescence to 238 +/- 12 seconds and to 90% to 320 +/- 14 seconds. Differences between buffer and cardioplegic solution were less at 10 degrees C. Aerobic metabolism was completely abolished 6 minutes after infusion of 10 degrees C oxygenated cardioplegic solution. Maintenance of continuous aerobic metabolism during surgical cardiac arrest would require frequent administration of oxygenated crystalloid cardioplegic solution.
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PMID:Effects of oxygenated cardioplegic solutions on myocardial aerobic metabolism. 151 53

The aim of the present study was to use nicotinamide adenine dinucleotide phosphate, reduced (NADH) fluorimetry, to investigate in situ NADH changes during muscle contraction in humans on an isokinetic dynamometer. Thirteen healthy male subjects each performed one maximal voluntary contraction (MVC) with the knee extensor muscle. The NADH muscle fluorescence was monitored by a double beam laser fluorimeter which uses an optical fibre, percutaneously inserted through a needle into the vastus lateral muscle, to guide the light. The NADH fluorescence was continuously measured at a wavelength of 337 nm. To estimate the haemodynamic artefact, blood backscattering was simultaneously determined at a wavelength of 586 nm. The fluorescence signal was recorded before, during and after contractions at 50% of MVC. The fibre was kept out of contact with the muscle during contractions at 100% of MVC and was only put into contact with it at the end of the contraction. At the onset of contractions at 50% of MVC, NADH fluorescence increased rapidly for 3 s and remained stable thereafter until exhaustion. After a muscle measurement had been made, the optical fibre was put successively into solutions of increasing NADH concentration to ascertain the relationship between the muscle fluorescence signal and the muscle NADH level. This procedure yielded estimated mean values for muscle NADH of 0.172 mmol.kg-1, SEM 0.028 and of 0.184 mmol.kg-1, SEM 0.027 after contractions at 50% and 100% of MVC, respectively, from a resting value of 0.087 mmol.kg-1, SEM 0.015. These results indicated that in situ laser fluorimetry could be used to evaluate NADH changes in humans during muscle contraction.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:In situ NADH laser fluorimetry during muscle contraction in humans. 191 29

A variety of biologically important pyridine nucleotides and precursors were examined for their capacities to satisfy the V-factor requirement of 30 strains of porcine haemophili. Of the compounds tested, only NAD, NMN and nicotinamide riboside (NR) supported the growth of all strains; NADP supported the growth of only the type strain of Haemophilus parasuis. Further studies with the H. parasuis type strain and the neotype strain of H. pleuropneumoniae demonstrated that, during growth, these organisms exhibited affinities for NMN that were greater than those for NAD; the affinity of H. pleuropneumoniae for NR was similar to that for NMN, whereas H. parasuis exhibited relatively low affinity for NR. With either organism, equimolar amounts of NAD and NMN supported the production of approximately equal amounts of biomass whereas growth yields were substantially lower when NR was the pyridine nucleotide source. When either organism was grown in the presence of excess exogenous [carbonyl-14C]NAD, cessation of growth was accompanied by the apparent exhaustion of the NAD supply. Approximately 80% of the radioactivity added as [14C]NAD could be recovered as extracellular [14C]nicotinamide and the majority of the assimilated radioactive material was present intracellularly in the form of a [14C]NAD(P) pool. The results are discussed in terms of the structural features required of a pyridine compound for it to support the growth of porcine haemophili, the capacity of these organisms to compete for pyridine nucleotide sources in vivo, and possible mechanisms involved in the assimilation of such compounds.
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PMID:Defining the metabolic and growth responses of porcine haemophili to exogenous pyridine nucleotides and precursors. 294 35

The effects of gramicidin D, S, and J on corn mitochondria respiration and swelling were studied. Only gramicidin D was found to have any pronounced effect on mitochondrial swelling. In buffered KCl gramicidin D produced a rapid, respiration-independent swelling which was not reversed with respiratory inhibitors or substrate exhaustion. The respiration rate of exogenous reduced nicotinamide adenine dinucleotide was stimulated by all three gramicidins, but the effects on malate-pyruvate and succinate respiration depended on the type of gramicidin and the reaction media. The respiration effects of gramicidin D may be due to action at specific sites for each substrate.
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PMID:Effects of gramicidin on corn mitochondria. 548 97

The inducible isoform of nitric oxide (NO) synthase produces large quantities of NO, a cytotoxic free radical. Recent studies show that treatment with exogenous NO produces DNA strand breaks, activating the nuclear repair enzyme poly(ADP)ribosyltransferase (PARS), which results in ADP ribosylation, NAD+ consumption, and exhaustion of intracellular energy stores. Here we have characterized the cytotoxic effect of endogenous NO and peroxynitrite, a reactive oxidant formed from NO and superoxide. Immunostimulation of J774.2 macrophages with endotoxin resulted in the generation of superoxide (within 1 h) and NO (after 8 h). NO production paralleled an increase in peroxynitrite formation and DNA strand breakage, and a decrease in intracellular NAD+ content and mitochondrial respiration. Inhibition of NO synthase by NG-methyl-L-arginine or S-methyl-isothiourea or inhibition of PARS activity by 3-aminobenzamide or nicotinamide prevented the decrease in mitochondrial respiration and the depletion of NAD+. A similar pattern of free radical formation and cytotoxicity was observed in peritoneal macrophages from endotoxemic rats (formation of NO, superoxide, peroxynitrite, and DNA strand breaks). In vivo treatment with 3-aminobenzamide preserved mitochondrial respiration, NAD+, and ATP. Our data suggest that inflammatory cell injury involved DNA strand breakage and PARS, triggering an energy-consuming, futile repair cycle leading to cellular energy depletion. The active species responsible for the development of DNA strand breaks is peroxynitrite, rather than NO, since exogenous peroxynitrite, but not NO, induces DNA strand breaks. Inhibition of PARS may improve cellular energy homeostasis in patho-physiologic conditions associated with peroxynitrite generation.
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PMID:Peroxynitrite-mediated DNA strand breakage activates poly-adenosine diphosphate ribosyl synthetase and causes cellular energy depletion in macrophages stimulated with bacterial lipopolysaccharide. 859 85

Otsuka Long-Evans Tokushima Fatty (OLETF) rat, a model of NIDDM, is normoglycemic at a young age. However, they become hyperglycemic, even at a young age as a result of a 70% pancreatectomy, which is associated with insufficient proliferation of beta-cells. Administration of nicotinamide ameliorates the sustained hyperglycemia by increasing beta-cell proliferation. In order to further understand its mode of action, we studied how long nicotinamide is effective, in terms of ameliorating hyperglycemia, as evidenced by an increase in beta-cell mass, after its administration, in partially pancreatectomized OLETF rats. Male rats, 6 weeks of age, were allocated at random to two groups, 70% pancreatectomy (Px) and sham-pancreatectomy (sham). The Px group was divided into three subgroups, based on treatment with either nicotinamide (350 mg/kg), phlorizin (400 mg/kg) or saline, which continued until 4 weeks after surgery, and were sacrificed at 4, 6, or 8 weeks after surgery. A 70% Px resulted in sustained hyperglycemia in the saline-treated Px rats, which was ameliorated by administration of either phlorizin or nicotinamide, showing the non-fasting blood glucose levels reached to or near the levels found in the sham rats. After cessation of phlorizin injection, non-fasting blood glucose level increased rapidly, reaching the level of the saline-treated Px rats at the end of the experiment, whereas after cessation of nicotinamide injection, non-fasting blood glucose increased gradually to a level which was significantly lower than that observed in the saline-treated Px rats. An increased beta-cell mass, 62.7 +/- 7.8% of total beta-cell mass induced by nicotinamide at 4 weeks, decreased gradually, reaching the level of pretreatment, 30.3 +/- 4.0% 4 weeks after cessation of the treatment. The findings in this study suggest that ameliorated hyperglycemia as a result of proliferated beta-cells during the administration of nicotinamide may results in showing beta-cell exhaustion (a majority of beta-cell degranulation) once stopping injection, as compared with phlorizin treated group in this model rat.
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PMID:A role of nicotinamide-induced increase in pancreatic beta-cell mass on blood glucose control after discontinuation of the treatment in partially pancreatectomized OLETF rats. 976 66

Neurotoxicity induced by different substituted amphetamines has been associated with the exhaustion of intracellular energy stores. Accordingly, we examined the influence of 2-deoxy-D-glucose (2-DG), a competitive inhibitor of glucose uptake and metabolism, and nicotinamide, an agent that improves energy metabolism, on 3, 4-methylenedioxymethamphetamine (MDMA)-induced 5-hydroxytryptamine (5-HT; serotonin) deficits. Administration of MDMA (15 mg/kg i.p.) produced a significant hyperthermia, whereas 2-DG caused a profound hypothermia that lasted throughout the experiment. When MDMA was given to 2-DG-treated rats, an immediate but transient hyperthermia occurred and was followed by a return to hypothermia. 2-DG had no effect on 5-HT concentrations in the frontal cortex, hippocampus, and striatum but prevented the neurotoxicity induced by MDMA. When rats were injected with 2-DG/MDMA and were warmed to prevent hypothermia, the protection afforded by 2-DG was abolished. Nicotinamide had no effect on body temperature of the rats, and the hyperthermia induced by the nicotinamide/MDMA treatment was similar to that of the saline/MDMA-treated rats. However, the long-term 5-HT deficits induced by MDMA were potentiated by nicotinamide in all the brain regions examined. Finally, no change on ATP concentrations in the frontal cortex, hippocampus, and striatum was observed up to 3 h after a single dose of MDMA. These results suggest that an altered energy metabolism is not the main cause of the neurotoxic effects induced by MDMA.
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PMID:2-Deoxy-D-glucose prevents and nicotinamide potentiates 3, 4-methylenedioxymethamphetamine-induced serotonin neurotoxicity. 1093 79

We previously reported that the blood NAD levels are decreased by severe exercise, and administration of nicotinamide, a precursor of NAD, improves the endurance capacity of mice. In the present study, we determined whether moderate exercise changes the blood NAD levels in humans and mice. College female students exercised moderately with bike-ergometers. The blood NAD levels elevated after moderate exercise. Mice were forced to swim in a running water pool for 5 min as a moderate exercise, 15 min as a strong exercise, and until exhaustion as a severe exercise (average swimming time was 28.7 min). A 5 min swim gave a result similar to that of moderate exercise by human subjects. However, the blood NAD levels decreased after all-out exercise. The changes in whole blood tryptophan (a precursor of pyridine nucleotides) levels were similar to that in NAD. The glucose levels in whole blood and the non-esterified fatty acid levels in serum decreased according to exercising time. These data are the first demonstration of moderate exercise raising the blood NAD levels in human and mice. Elevation of the blood NAD levels may reflect changes in niacin metabolism that occur in response to exercise.
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PMID:Elevation of blood NAD level after moderate exercise in young women and mice. 1150 11

Addition of 90 micromolar reduced nicotinamide adenine dinucleotide (NADH) in the presence of cyanide to a suspension of aerobic mung bean (Phaseolus aureus) mitochondria depleted with ADP and uncoupler gives a cycle of reduction of electron transport carriers followed by reoxidation, as NADH is oxidized to NAD(+) through the cyanide-insensitive, alternate oxidase by excess oxygen in the reaction medium. Under these conditions, cytochrome b(553) and the nonfluorescent, high potential flavoprotein Fp(ha) of the plant respiratory chain become completely reduced with half-times of 2.5 to 2.8 seconds for both components. Reoxidation of flavoprotein Fp(ha) on exhaustion of NADH is more rapid than that of cytochrome b(553). There is a lag of 1.5 seconds after NADH addition before any reduction of ubiquinone can be observed, whereas there is no lag perceptible in the reduction of flavoprotein Fp(ha) and cytochrome b(553). The half-time for ubiquinone reduction is 4.5 seconds, and the extent of reduction is 90% or greater. About 30% of cytochrome b(557) is reduced under these conditions with a half-time of 10 seconds; both cytochrome b(562) and the fluorescent, high potential flavoprotein Fp(hf) show little, if any, reduction. The two cytochromes c in these mitochondria, c(547) and c(549), are reduced in synchrony with a half-time of 0.8 second. These two components are already 60% reduced in the presence of cyanide but absence of substrate, and they become completely reduced on addition of NADH. These results indicated that reducing equivalents enter the respiratory chain from exogenous NADH at flavoprotein Fp(ha) and are rapidly transported through cytochrome b(553) to the cytochromes c; once the latter are completely reduced, reduction of ubiquinone begins. Ubiquinone appears to act as a storage pool for reducing equivalents entering the respiratory chain on the substrate side of coupling site 2. It is suggested that flavoprotein Fp(ha) and cytochrome b(553) together may act as the branching point in the plant respiratory chain from which forward electron transport can take place to oxygen through the cytochrome chain via cytochrome oxidase, or to oxygen through the alternate, cyanide-insensitive oxidase via the fluorescent, high potential flavoprotein Fp(hf).
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PMID:The Respiratory Chain of Plant Mitochondria: VIII. Reduction Kinetics of the Respiratory Chain Carriers of Mung Bean Mitochondria with Reduced Nicotinamide Adenine Dinucleotide. 1665 17

Pollen of tomato cv. Supermarmande was collected from greenhouse-grown plants at various intervals throughout the year and arbitrarily classified as of high, medium or low respiratory activity on the basis of CO(2) production during 8 h incubation in vitro at 30 degrees C, a temperature that is considered to be moderately high for tomato fruit set. After an initial burst of respiration during the first stage of hydration at 30 degrees C (>1 h), the respiration rate of pollen of all three categories declined, the decrease being greater in the lots with a low or medium respiratory activity than in the high category. During hydration (10 min after the start of incubation), the addition of succinate or reduced beta-nicotinamide adenine dinucleotide (NADH) to the substrate increased the respiratory rate of slowly-respiring pollen more than that of fast-respiring pollen, but carbonyl cyanide 3-chlorophenylhydrazone (CCCP) and adenosine 5'-diphosphate (ADP) had less effect. After 1-4 h incubation, the respiration rate of the slow- or medium-respiring pollen lots had decreased, but was stimulated by succinate or NADH, and to a lesser degree by ADP. By 7 h, the respiration rate of all pollen lots had declined and was stimulated less by substrate, ADP or CCCP. The oxidation of NADH by tomato pollen contrasts with the failure of other pollen species to utilize this substrate; moreover, a synergistic effect of NADH and succinate was consistently observed. We conclude that the decline in respiration during incubation for up to 4 h at 30 degrees C may reflect a lack of respiratory substrate. After 7 h, however, the decreased response to substrate indicates a loss of mitochondrial integrity or an accumulation of metabolic inhibitors. It is concluded that at 30 degrees C (a moderately high temperature for tomato pollen), the initially high rate of respiration leads to exhaustion of the endogenous respiratory substrates (particularly in pollen with low to medium respiratory activity), but subsequently to ageing and a loss of mitochondrial activity.
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PMID:The effect of substrate, ADP and uncoupler on the respiration of tomato pollen during incubation in vitro at moderately high temperature. 2003 34


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