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)

An initial event in gram-negative bacteremia is activation of the complement cascade with production of C5a. C5a, in turn, acts as a chemotactic stimulus for leukocytic aggregation and, in conjunction with bacterial products, stimulates the release of oxygen free radicals from leukocytes. We have hypothesized that these oxygen free radicals (.O2-, superoxide anion; .OH, hydroxyl radical; H2O2, hydrogen peroxide) contribute to the characteristic myocardial dysfunction of endotoxin shock, Isolated canine cardiac sarcoplasmic reticulum (SR) was used as a subcellular determinant of mechanical function. SR was incubated for 20 min at 37 degrees C in the presence of phorbol myristate acetate activated leukocytes (A-L) and calcium uptake and Ca2+-adenosine triphosphatase (ATPase) activities were measured. Activated leukocytes significantly depressed SR Ca2+ uptake rates (C = 1.12 +/- 0.05 mumol CA2+/mg-min; A-L = 0.73 +/- 0.05). The addition of catalase (CAT; 10 micrograms/ml) or superoxide dismutase (SOD: 10 micrograms/ml) plus CAT reversed the inhibition of SR Ca2+ uptake. SOD further depressed SR Ca2+ uptake (+SOD = 0.55 +/0 0.04 mumol Ca2+/mg-min). Mannitol had no effect. SR ATPase activity was inhibited with A-L (C = 1.41 +/- 0.04 mumol Pi/mg-min; A-L = 0.84 +/- 0.09). Neither mannitol, nor SOD nor CAT alone had any effect on the depression of SR ATPase activity. SOD plus CAT reversed the ATPase depression induced by A-L. It is concluded that phorbol myristate acetate activated leukocytes via free radical-mediated mechanisms can directly affect function and activity of the excitation-contraction coupling system of cardiac muscle. Free radical scavengers identified hydrogen peroxide as a major mediator of depressed Ca2+ uptake rates. In conjunction with the superoxide anion, hydrogen peroxide contributes to the depressed ATPase activity.
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PMID:Interaction of oxygen free radicals and cardiac sarcoplasmic reticulum: proposed role in the pathogenesis of endotoxin shock. 685 Oct 3

Two groups of Merino sheep were intoxicated separately and at different times with "gousiektebossie" (Pachystigma pygmaeum) until definite symptoms of heart failure were auscultated. Cardiectomy was carried out and some ventricular muscle from 1 group was stored in 50% glycerol at -20 degrees C for about 4 months. Natural actomyosin (n-actomyosin) was subsequently extracted and tested for magnesium, calcium and adenosine triphosphate (ATP)-dependent adenosine triphosphatase (ATP-ase) activity as well as for superprecipitation characteristics. Muscle strips were taken from the other group and stored for 2 weeks in 50% glycerol at -20 degrees C, whereafter it was analysed for an isometric tension-calcium response. The data showed no difference between gousiekte and control sheep in the sensitivity of the contractile system to the activating effect of calcium ions with respect to isometric tension development. A significant reduction of the magnesium dependent ATP-ase was found for gousiekte n-actomyosin in either the presence or absence of calcium ions. A depressed sensitivity for this enzyme to increasing concentrations of ATP in comparison to controls was also found ([ATP] less than 1 mM, [MgCl2] = 1 mM). No significant difference could be detected in the sensitivity of the n-actomyosin:ATP-ase system to magnesium. n-Actomyosin:ATP-ase of gousiekte hearts revealed a depressed sensitivity to calcium ions. Gousiekte n-actomyosin also showed a significant depression in the rate of superprecipitation with a concomitant increase in the duration of the clearing phase. We conclude from these observations that a definite biochemical lesion is induced in the contractile proteins of heart muscle obtained from sheep intoxicated with "gousiektebossie" at the stage of cardiac failure. This condition is characterized by abnormal superprecipitation characteristics and a depressed n-actomyosin:ATP-ase activity, showing a reduced sensitivity to the activating effect of calcium ions.
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PMID:A study on the function of some subcellular systems of the sheep myocardium during gousiekte. II. The contractile protein system. 718 38

1. The goal of this study was to characterize the fatigability, contractile relaxation properties, electrophysiological responses, and histochemical properties of the human paralyzed soleus muscle to determine its relative plasticity. 2. Acute (< 6 wk, n = 3) and chronic (> 1 yr, n = 10) paralyzed individuals had the tibial nerve activated with a 20-Hz square wave delivered for 330 ms every second for 4 min. The soleus muscle peak torque, one-half relaxation time (1/2RT), normalized maximum rate of relaxation (nMRR), and mass muscle action-potential amplitude (M wave) were computed every 30 s. A soleus muscle biopsy was evaluated for myosin adenosine triphosphatase enzyme (ATPase; pH 9.4, 4.6, and 4.2) and nicotinamide adenine dinucleotide tetrazolium reductase (NADH-TR). 3. In the chronically paralyzed group the torque was significantly reduced within 30 s of the fatigue protocol. The 1/2RT and nMRR were also significantly changed within 30 s, supporting that muscle relaxation was prolonged. No significant changes were present at comparable times during the same 4-min fatigue protocol applied to the acutely paralyzed soleus muscle. M-wave amplitude was significantly reduced in the chronic group, but only at 3 min of the fatigue protocol. Conversely, no significant changes occurred to the M waves of the acute group. 4. The correlation was high between torque and nMRR (r = 0.88-0.97) and torque and 1/2RT (r = 0.88-0.96) for each chronic subject. A close association was also found between 1/2RT and nMRR (r = 0.88-0.92) for each chronic subject. Because these variables changed minimally in the acutely paralyzed group, a lower correlation was present (r = 0.45-0.52). 5. Torque was weakly correlated to M-wave amplitude (r = 0.55) for the chronically paralyzed group. The greatest change in torque occurred at a time (0-65 s) when the least amount of change occurred in the M-wave amplitude, suggesting that the source of fatigue was within the contractile mechanism and not attributable to neuromuscular transmission compromise. 6. Despite a close association between torque and relaxation properties during fatigue of the chronically paralyzed soleus muscle, there was a significant dissociation after 5 min of recovery. Torque recovered to 60%, whereas the relaxation properties were consistently fully recovered. This suggests that the mechanism causing torque reduction covaried with the mechanism leading to prolonged relaxation during fatigue, but during recovery the two mechanisms no longer covaried. M-wave amplitude was also completely recovered at 5 min despite continued torque depression.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Fatigability, relaxation properties, and electromyographic responses of the human paralyzed soleus muscle. 766 32

A cellular model for bipolar illness is presented. It is propounded that alterations in the activity of the membrane sodium- and potassium-activated adenosine triphosphatase pump (Na,K-ATPase) may be responsible for alterations in neuronal excitability and activity. Specifically, a reduction in Na,K-ATPase activity can lead to both mania and depression by increasing membrane excitability and decreasing neurotransmitter release, respectively. Supporting evidence is reviewed, and clinical and research implications are discussed.
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PMID:The Na,K-ATPase hypothesis for bipolar illness. 771 Nov 60

We developed an improved determination method of mitochondrial proton adenosine triphosphatase (ATPase) activity in the liver. The activity was measured fluorometrically with a 3,3'-dipropylthiodicarbocyanine iodide (diS-C3(5)), which is excited at 625 nm and emits fluorescence at 670 nm. This dye transmits the electric potential across the inner mitochondrial membrane. The fluorescence intensity of diS-C3(5) with mitochondria (100 microliters, 4-16 mg/ml protein) in a 2 ml potassium buffer (pH 7.4) was regarded as a standard electric potential. After confirming the activity of the mitochondrial electron transport chain by succinic acid (9 mumol), we inhibited the chain by antimycin A (1.25 micrograms). Fluorescence intensity decreased by adenosine 5'-triphosphate (ATP) (2 mumol) and oligomycin (25 micrograms) inhibited this depression. The value of mitochondrial proton ATPase activity was calculated as a percentage of the fluorescence intensity change by ATP per the standard electric potential. The activity of mitochondrial proton ATPase in the normal fresh rat livers was 50.3 +/- 2.2%. Good correlation (r2 = 0.807) between two methods for mitochondrial proton ATPase activity, our newly developed method and a conventional colorimetric method, was obtained in the rat livers with various conditions. This method has advantages that the proton ATPase activity can be measured in intact mitochondria, and all procedures can be completed within 40 min. It is suitable for the determination of mitochondrial viability of liver graft in the hepatic resections and transplantations.
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PMID:Rapid fluorometric assay for mitochondrial proton adenosine triphosphatase activity for assessment of viability of liver graft tissue. 786 82

1. The effects of brief anoxia (4-6 min replacement of O2 by N2) on synaptic potentials evoked from layer IV and/or the white matter were studied in pyramidal neurons of layers II-III from rat neocortical slices. 2. The early and late components of excitatory postsynaptic potentials (EPSPs) showed differential sensitivity to anoxia: within 2 min the late EPSP (lEPSP) disappeared, whereas the amplitude of the early EPSP (eEPSP) decreased by 70% at 5 min of anoxia. Recovery was complete within 4-11 min. 3. Both fast and slow inhibitory postsynaptic potentials (IPSPs) were extremely sensitive to lack of O2 and were abolished earlier than the lEPSP evoked by the same stimulus. As well, recovery of the IPSPs was always more delayed than that of the EPSPs. 4. A transient increase in excitability during early anoxia and/or midrecovery, manifested as enhanced probability of spiking in 25% of neurons, is attributed to the higher sensitivity of IPSPs compared with EPSPs. 5. The anoxic-induced depression of the lEPSP and IPSPs, which are generated close to the soma, is not due to depolarization-induced occlusion; however, occlusion may cause an attenuation of the eEPSP at dendritic sites. 6. The depression of the EPSPs is not a result of a decreased transmembrane Na+ gradient after inactivation of Na-K-adenosine triphosphatase (Na-K-ATPase). Although ouabain induced a depolarization similar to that of anoxia, it did not affect EPSP amplitude.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Anoxic depression of excitatory and inhibitory postsynaptic potentials in rat neocortical slices. 838 53

The regulatory myosin light chain (MLC) is phosphorylated in cardiac muscle by Ca2+/calmodulin-dependent MLC kinase (MLCK) and is considered to play a modulatory role in the activation of myofibrillar adenosine triphosphatase (ATPase) and the process of force generation. Since the depression in cardiac contractile function in chronic diabetes is associated with a decrease in myofibrillar ATPase activity, we investigated changes in MLC phosphorylation in diabetic heart. Rats were made diabetic by injecting streptozotocin (65 mg/kg intravenously), and the hearts were removed 8 weeks later; some 6-week diabetic animals were injected with insulin (3 U/d) for 2 weeks. Changes in the relative MLC and MLCK protein contents were measured by electrophoresis and immunoblot assay, whereas phosphorylated and unphosphorylated MLCs were separated on 10% acrylamide/urea gel and identified by Western blot. MLC and MLCK contents were decreased markedly (40% to 45%) and MLC phosphorylation was decreased significantly (30% to 45%) in the diabetic rat heart homogenate in comparison to control values. The changes in MLC and MLCK content in diabetic heart were partially reversible, whereas changes in MLC phosphorylation were normalized upon treatment with insulin. These results suggest that decreased protein contents of MLC and MLCK and phosphorylation of MLC may contribute to the depression of cardiac myofibriliar ATPase activity and heart dysfunction in diabetic cardiomyopathy.
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PMID:Myosin light-chain phosphorylation in diabetic cardiomyopathy in rats. 900 73

Lithium is used in the prophylaxis of bipolar depressive disorder in augmentation treatment of depression and in the therapy of some cases of unipolar depression. Lithium affects cell function via its inhibitory action on adenosine triphosphatase (ATPase) activity, cyclic adenosine monophosphate (cAMP), and intracellular enzymes. The inhibitory effect of lithium on inositol phospholipid metabolism affects signal transduction and may account for part of the action of the cation in manic depression. Lithium also alters the in vitro response of cultured cells to thyrotropin-releasing hormone (TRH) and can stimulate DNA synthesis. Lithium is concentrated by the thyroid and inhibits thyroidal iodine uptake. It also inhibits iodotyrosine coupling, alters thyroglobulin structure, and inhibits thyroid hormone secretion. The latter effect is critical to the development of hypothyroidism and goiter. Effects on brain deiodinase enzymes and alterations in thyroid hormone receptor concentration in the hypothalamus are under investigation in relation to the therapeutic effect of lithium. The ion affects many aspects of cellular and humoral immunity in vitro and in vivo. This accounts for a rise in antithyroid antibody titer in patients having these antibodies before lithium administration whereas there is no induction of thyroid antibody synthesis de novo. Goiter, due to increased thyrotropin (TSH) after inhibition of thyroid hormone release, occurs at various reported incidence rates from 0%-60% and is smooth and nontender. Subclinical and clinical hypothyroidism due to lithium is usually associated with circulating anti-thyroid peroxidase (TPO) antibodies but may occur in their absence. Iodine exposure, dietary goitrogens, and immunogenetic background may all contribute to the occurrence of goiter and hypothyroidism during long-term lithium therapy. It is currently unclear whether the reported association of lithium therapy and hyperthyroidism are causal, although there is suggestive epidemiological evidence. Finally, lithium therapy is associated with exaggerated response of both TSH and prolactin to TRH in 50%-100% of patients, although basal levels are not usually high. It is probable that the hypothalamic pituitary axis adjusts to a new setting in patients receiving lithium.
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PMID:The effects of lithium therapy on thyroid and thyrotropin-releasing hormone. 982 58

We have investigated the influence of the sarcoplasmic reticulum (SR) Ca2+ content on the retrograde control of skeletal muscle L-type Ca2+ channels activity by ryanodine receptors (RyR). The effects of cyclopiazonic acid (CPA) and thapsigargin (TG), two structurally unrelated inhibitors of SR Ca(2+)-adenosine triphosphatase (ATPase), were examined on the SR Ca2+ content, the calcium current and contraction in single frog semitendinosus fibres using the double mannitol-gap technique. At moderate concentrations that only partially inhibited Ca2+ sequestration by the SR, CPA (2-4 microM) induces a concentration dependent depression of contraction and Ca2+ current amplitudes. When Ba2+ is the charge carrier, the inward current is not changed by CPA suggesting that this Ca(2+)-pump inhibitor does not directly affect dihydropyridine Ca2+ channels. Similar effects were obtained with TG (1-5 microM). Changes in Ca2+ currents and contraction were accompanied by a reduced Ca2+ loading of the SR. We attribute the modulation of the Ca2+ current to the selective inhibition of the SR Ca2+ ATPase, resulting in a decreased Ca2+ release and thereby a reduced activation of calcium inward currents. This is therefore taken to represent a calcium release-dependent modulation of skeletal muscle L-type Ca2+ channels.
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PMID:Cyclopiazonic acid and thapsigargin reduce Ca2+ influx in frog skeletal muscle fibres as a result of Ca2+ store depletion. 1190 31

Patients with diabetes mellitus have a high incidence of heart failure, which contributes significantly to their increased cardiovascular morbidity and mortality. One of the major complications of diabetes is the development of cardiomyopathy, a condition characterized by defects of contractile function in the absence of significant coronary artery disease or systemic hypertension. Experimental data in animal models show that contractile depression begins as early as 1 week after induction of diabetes, and the dysfunction is related to an isomyosin distribution shift from V(1) with high adenosine triphosphatase (ATPase) to V(3) with low ATPase activity. Moreover, diabetes is associated with an increased or poorly regulated rate of amino acid catabolism at the cardiac level. Abnormal responses to acute left ventricular (LV) overload induced by exercise (isometric or isotonic) have been demonstrated in patients with diabetes. Impaired augmentation of LV ejection fraction occurs in up to 40% of patients with diabetes. Analysis of the LV afterload-pump function (LV circumferential wall stress-ejection fraction) relationship shows that defective contractile recruitment is the main cause of this anomaly. Exercise-induced LV dysfunction may be the first manifestation of cardiac involvement in patients with diabetes. Increasing the supply of amino acids in addition to conventional therapy significantly attenuates this phenomenon. Although the precise underlying pathophysiologic mechanism is not completely known, these observations may eventually be important in designing an optimal dietary or supplemental approach for patients with diabetes in order to prevent progressive myocardial dysfunction.
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PMID:Early myocardial dysfunction in the diabetic heart: current research and clinical applications. 1509

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