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)

1. Transmitter release at neuromuscular junctions of extensor digitorum longus (EDL) muscle in mice was studied after 2-8 month periods of unforced running in wheels. 2. Intracellular recordings at 10 Hz stimulation revealed that the quantal content of endplate potentials (EPPs) in Mg(2+)-blocked preparations was larger by 30% in trained (mean number of quanta, m = 1.75 +/- 0.19, n = 7) than in untrained control EDL muscles (m = 1.35 +/- 0.35, n = 7). Similarly the amplitudes of the first, maximum and plateau EPPs during tetanic stimulation (100 Hz for 1 s or 400 ms) in curare-blocked preparations were increased by 28% each; muscle fibre diameters did not differ while other postsynaptic effects were not excluded. 3. Training effects became particularly evident in two pairs of monozygotic twins, in which the time courses of facilitation and depression were changed as well: at 100 Hz stimulation the maximum EPP amplitude was reached on average at 2.6 impulses in controls but at 2.0 impulses in runners, and the following decline below the value of the first EPP at 5.0 and 3.8 impulses respectively. 4. Block resistance, as monitored by isometric tension measurements in different presynaptic (Mg2+) and postsynaptic (curare) blocking solutions, was higher in trained than in control EDL muscles. Depression in a train of four nerve-evoked single twitches at 2 Hz was lower. 5. As expected from the unchanged fibre diameters (see above) isometric tetanic force was similar in trained and control EDL muscles. Muscle fatigue resistance was larger in trained animals and succinic dehydrogenase activity was higher in fibres of trained muscles indicating an endurance training of the EDL muscle. 6. It is concluded that besides changes in muscle fibre properties, prolonged elevated activity causes increased transmitter release in EDL muscles. As a consequence, the safety margin of transmission in trained EDL muscles is markedly elevated.
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PMID:Effects of enhanced activity on synaptic transmission in mouse extensor digitorum longus muscle. 164 30

Although alcohol has long been known to induce cardiac depression and cardiomyopathy, it is not known whether drug therapy or pharmacologic manipulation can be used to prevent or reverse these toxicities. With this in mind, high levels (15 mM) of magnesium (Mg) were investigated for their potential antialcohol effects on perfused rat hearts. A high concentration of ethanol (135 mM) was used to induce rapid cardiac failure as assessed by hemodynamic and metabolic parameters. During ethanol perfusion in normal 1.2 mM [Mg2+]o physiologic salt solution, coronary flow decreased immediately, and all of the hemodynamic parameters studied (except for heart rate) were depressed significantly. After 10 min of 135 mM ethanol perfusion, only 60% of the hearts kept beating; at 15 min, only 42% of the hearts continued to beat. Myocardial metabolism under such conditions as assessed by examination of coronary effluent concentrations of lactic acid (LA), lactic acid dehydrogenase (LDH) and creatine phosphokinase (CPK) was rapidly and severely compromised. Although 15 mM MgSO4 alone did not alter coronary flow and systolic pressure under the conditions studied, it did decrease cardiac output, heart rate and total pressure developed. However, when 15 mM MgSO4 was given 10 min before ethanol, and continued during ethanol perfusion, the usual depression in all assessed cardiac hemodynamic parameters (except heart rate) caused by ethanol was not observed. During 15 min of high [Mg2+]o perfusion, coronary flow recovered from 19.1 +/- 6.8% (ethanol alone) to 68.1 +/- 9.9% of control values (p < 0.01); cardiac output recovered from 10.4 +/- 4.6% (ethanol alone) to 43.6 +/- 7.5% of control (p < 0.01); stroke volume went from 12.9 +/- 5.8% (ethanol alone) to 97.1 +/- 14.5% of control (p < 0.01); systolic pressure from 55.3 +/- 3.6% (ethanol alone) to 88.8 +/- 4.0% of control (p < 0.01), and total pressure developed from 23.9 +/- 7.8% (ethanol alone) to 35.0 +/- 4.5% of control (p < 0.05). Assessment of the metabolic biochemical parameters supported these changes in hemodynamic improvement. For example, LA, LDH and CPK all went from elevated values towards normal levels. There were similar hemodynamic and metabolic responses to high [Mg2+]o given during ethanol perfusion to that given before ethanol perfusion. The hemodynamic and metabolic beneficial effects between groups pretreated or treated with high [Mg2+]o exhibited no significant differences. These results suggest that high [Mg2+]o (15 mM) given either before or during ethanol-induced cardiotoxicity is effective in attenuating both functional and metabolic damage caused by high ethanol perfusion in the rat heart.
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PMID:Beneficial effects of high magnesium on alcohol-induced cardiac failure. 166 23

Sucrose gap techniques recorded dorsal root potentials evoked by supramaximal dorsal root stimulation in in vitro, hemisected frog spinal cords. In 0 mM Mg2+ large (mean 13.0 mV), long lasting (mean 8.1 s) dorsal root potentials were recorded which consisted of two components: (1) an early component sensitive to picrotoxin, bicuculline, and low [Cl-]o and presumably produced by activation of GABAA receptors; and (2) a long-duration second component enhanced and lengthened by picrotoxin, bicuculline and low [Cl-]o and thought to result from increased interneuron discharges resulting from depression of GABA-mediated pre- and postsynaptic inhibition. Both the early and late components were reduced by over 90% in amplitude and duration by 20 mM Mg2+ or by kynurenate and bicuculline. The early component of the dorsal root potential may depend mainly upon activation of non-N-methyl-D-aspartate receptors. Thus, the N-methyl-D-aspartate antagonist D-(-)-2-amino-5- phosphonovalerate caused only a modest reduction in the amplitude of the early dorsal root potential component while the non N-methyl-D-aspartate antagonist 6-cyano-7-nitroquinoxaline-2,3-dione caused a much more substantial reduction. Exposure of the spinal cord to a "physiological" concentration of Mg2+ (1.0 mM) greatly reduced the duration and somewhat reduced the amplitude of the dorsal root potential. The reduction of dorsal root potentials by 1.0 mM Mg2+ appears to be caused by both pre- and postsynaptic factors.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Dorsal root potentials in the isolated frog spinal cord: amino acid neurotransmitters and magnesium ions. 167 40

All the experiments were carried out in slices of rat prefrontal cortex maintained in vitro. The effect of 2-amino-5-phosphonovalerate (APV) was tested on the postsynaptic potential (PSP) recorded in layer V pyramidal cells, in response to single or high frequency stimulation of the superficial layers I-II. Wash-out of Mg2+ increased the amplitude and duration of the PSPs. This effect resulted from activation of N-methyl-D-aspartate (NMDA) receptors since it was suppressed by bath application of APV. Furthermore, in every cell tested in Mg2+ containing medium (N = 16), exposure to APV reversibly reduced both mono- and polysynaptic components of the PSPs, indicating that, even in the control solution, activation of NMDA-coupled channels contributed to these synaptic events. Finally, the anomalous voltage-dependence of the EPSP in the presence of Mg2+ and its sensitivity to APV suggests that at least a fraction of the NMDA receptors are postsynaptically located. Tetanization was applied to the afferents of cells bathed in control- or APV-medium. Long-term potentiation (LTP) or long-term depression (LTD) is defined as an increase or a decrease respectively, of the PSPs peak amplitude or initial slope, lasting 20 min. In the control medium, LTP in synaptic efficacy was observed in 34% of the cells and LTD in 48% (N = 23). When exposed to APV, none of the cells tested (N = 16) showed LTP of the response. In contrast, the tetanus induced a LTD of the PSP amplitude or slope in 14 out of these 16 cells. The percentage of cells showing LTD in synaptic efficacy (87%) when the NMDA receptors activation was blocked was significantly higher than that in control-medium.
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PMID:Blockade of NMDA receptors unmasks a long-term depression in synaptic efficacy in rat prefrontal neurons in vitro. 168 Jul 38

1. The actions of the trivalent cation, gadolinium (Gd3+), were studied on frog isolated neuromuscular preparations by conventional electrophysiological techniques. 2. Gd3+ (450 microM) applied to normal or formamide-treated cutaneous pectoris nerve-muscle preparations induced, after a short delay, a complete block of neuromuscular transmission. The reversibility of the effect was dependent on the time of exposure. 3. Gd3+ (5-450 microM) had no consistent effect on the resting membrane potential of the muscle fibres. 4. Gd3+ (5-40 microM) applied to preparations equilibrated in solutions containing high Mg2+ and low Ca2+ reduced the mean quantal content of endplate potentials (e.p.ps) in a dose-dependent manner. Under those conditions, 3,4-diaminopyridine (10 microM) consistently reversed the depression of evoked quantal release. 5. The calcium current entering motor nerve terminals, revealed after blocking presynaptic potassium currents with tetraethylammonium (10 mM) in the presence of elevated extracellular Ca2+ (8 mM), was markedly reduced by Gd3+ (0.2-0.5 mM). 6. Gd3+ (40-200 microM) increased the frequency of spontaneous miniature endplate potentials (m.e.p.ps) in junctions bathed either in normal Ringer solution or in a nominally Ca(2+)-free medium supplemented with 0.7 microM tetrodotoxin. This effect may be due to Gd3+ entry into the nerve endings since it is not reversed upon removal of extracellular Gd3+ with chelators (1 mM EGTA or EDTA). Gd3+ also enhanced the frequency of me.p.ps appearing after each nerve stimulus in junctions bathed in a medium containing high Mg2+ and low Ca2+. 7. Gd3+, in concentrations higher than 100 microM, decreased reversibly the amplitude of m.e.p.ps suggesting a postsynaptic action. 8. It is concluded that the block of nerve-impulse evoked quantal release caused by Gd3 + is related to its ability to block the calcium current entering the nerve endings, supporting the view that Gd3 + blocks N-type Ca2+ channels; while the enhancement of spontaneous quantal release is probably the result of Gd3 + entry into motor nerve endings. Besides its dual prejunctional effects on quantal release it is suggested that Gd3 + exerts a postsynaptic action on the endplate acetylcholine receptor-channel complex.
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PMID:Changes of quantal transmitter release caused by gadolinium ions at the frog neuromuscular junction. 168 1

Extracellular field potentials and [K+]o were recorded in slices of human epileptogenic neocortex maintained in vitro during perfusion with Mg(2+)-free artificial cerebrospinal fluid (ACSF). The human neocortex was obtained during neurosurgical procedures for the relief of seizures that were resistant to medical treatment. Spontaneous epileptiform activity and episodes of spreading depression appeared within 1.5 to 2 hours of perfusion with Mg(2+)-free ACSF. The epileptiform discharges consisted of negative field potential shifts (amplitude, 0.8-10 mV) that lasted 2.5 to 80 seconds and recurred at intervals ranging between 4 and 160 seconds. Both duration and frequency of occurrence of epileptiform events were not significantly different when measured in slices obtained from spiking tissue compared with those gathered from nonspiking neocortical areas. Transient increases in [K+]o of up to 10.5 mM were associated with each epileptiform discharge; these changes were maximal and fastest in the middle neocortical layers. Spreading depression episodes were characterized by 20 to 30-mV negative shifts that lasted up to 200 seconds and were accompanied by increases in [K+]o of approximately 100 mM. Epileptiform discharges and spreading depressions did not occur during perfusion with Mg(2+)-free ACSF that contained either competitive or noncompetitive antagonists of the N-methyl-D-aspartate (NMDA) receptor subtype. In contrast, pharmacological blockade of non-NMDA receptors did not influence the epileptiform activity observed in Mg(2+)-free ACSF. These findings demonstrate that decreasing [Mg2+]o leads to the appearance of both spontaneous epileptiform discharges and spreading depression in the human epileptogenic neocortex.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Epileptiform activity induced by low extracellular magnesium in the human cortex maintained in vitro. 168 84

Magnesium inhibits the release of acetylcholine from the motor nerve terminal and thus potentiates the action of the non-depolarizing neuromuscular blocking drugs. We have examined the possibility that this effect might enhance the speed of onset of non-depolarizing block with pancuronium. Following the administration of pancuronium 100 micrograms kg-1, 95% depression of thumb twitch occurred in 68.3 (SD 25.9) s in magnesium-pretreated subjects and in 73.7 (19.5) s in a group given a priming dose (10 micrograms kg-1) of pancuronium. Tracheal intubation was performed after 97.8 (22.5) s in the magnesium group and in 121.0 (37.5) s in the control group (ns). It is concluded that pretreatment with magnesium does not usefully increase the speed of onset of action of pancuronium.
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PMID:Priming of pancuronium with magnesium. 181 30

In vivo assessment of toxicant action on Leydig cell function is subject to homeostatic mechanisms which make it difficult to determine whether any changes seen in serum testosterone (T) concentration are due to extragonadal endocrine alterations or to a direct effect on the Leydig cell. For example, metal cations administered in vivo have been shown to depress serum T concentration and alter serum concentrations of pituitary hormones in laboratory animals. The studies reported here use a testicular cell culture technique to evaluate Leydig cell testosterone biosynthesis in the presence of several metal cations. To determine the site of toxic action, the Leydig cells were stimulated to produce testosterone by using human chorionic gonadotrophin (hCG), dibutyl cyclic adenosine monophosphate (db-cAMP), or several substrates required for the biosynthesis of testosterone. hCG was chosen because resultant T production requires an intact membrane receptor and db-cAMP was used to test for post LH receptor defects caused by the metals. The other substrates were chosen to isolate the effect of metals on enzymatic pathways. Collagenase dispersed testicular cells (15% Leydig cells) were incubated with metal cations (1 to 5000 microM) for 3 hr in the absence and presence of maximally stimulating concentrations of hCG, db-cAMP, 20 alpha-hydroxycholesterol (HCHOL), or pregnenolone (PREG), and T concentration was determined by radioimmunoassay. In one separate experiment we also tested the effect of the substrates progesterone, 17 alpha-hydroxy-progesterone, and androstenedione on Cd2(+)-treated Leydig cells. The results show no change in Leydig cell viability with any metal cation treatment during the 3-hr incubation. Ca2+, Cr3+, Fe3+, Mg2+, Na+, or Pb2+ had no effect on stimulated testosterone. Dose-response depression in both hCG- and db-cAMP-stimulated T production were seen with Cd2+, Co2+, Cu2+, Hg2+, Ni2+, and Zn2+ treatment. Surprisingly, Cd2+, Co2+, Ni2+, and Zn2+, which caused a depression in hCG- and db-cAMP-stimulated T production, caused significant increases in HCHOL- and PREG-stimulated T production over untreated and similarly stimulated cultures. This indicates that these cations may act at multiple sites within the Leydig cell.
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PMID:Effect of cadmium and other metal cations on in vitro Leydig cell testosterone production. 185 Jan 71

In order to understand the role of carnitine metabolites in the genesis of cellular dysfunction and damage due to myocardial ischemia, the effects of 1-100 microM L-carnitine, acetylcarnitine, propionylcarnitine, and palmitoylcarnitine were investigated on rat heart sarcolemmal, sarcoplasmic reticular, and mitochondrial ATPase activities. Palmitoylcarnitine, unlike acetylcarnitine, propionylcarnitine and carnitine, produced marked inhibitory actions on sarcolemmal Na,K-ATPase and Ca2(+)-stimulated ATPase, as well as sarcoplasmic reticular Ca2(+)-stimulated ATPase activities; Na,K-ATPase was most sensitive. Although palmitoylcarnitine, unlike carnitine or its short-chain fatty-acid derivatives, also depressed sarcolemmal Ca2+ ATPase or Mg2+ ATPase, sarcoplasmic reticular Mg2+ ATPase, and mitochondrial Mg2+ ATPase, mitochondria were less sensitive in comparison to other organelles. Myofibrillar Ca2(+)-stimulated ATPase was slightly inhibited by very high concentrations of palmitoylcarnitine only. It is suggested that the observed depression of the sarcolemmal Na(+)-pump system by low concentrations of long-chain acyl derivatives of carnitine may contribute towards the pathogenesis of arrhythmias due to myocardial ischemia. Furthermore, the inhibition of Ca2(+)-pump mechanisms in the sarcolemmal and sarcoplasmic reticular membranes by relatively high concentrations of palmitoylcarnitine may result in the occurrence of intracellular Ca2+ overload and subsequent cell damage, as well as cardiac dysfunction due to myocardial ischemia.
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PMID:Effects of some L-carnitine derivatives on heart membrane ATPases. 185 32

The merits of oxygenated crystalloid cardioplegic solutions have been well established in experimental animals. The positive effects of oxygenation of Plasmalyte B (Sabax Ltd) and St. Thomas Hospital solution (Plegisol) were achieved by gassing with 95% O2/5% CO2 and 100% O2, respectively. In view of the marked pH differences induced by these gas mixtures, we evaluated the effect of mode of oxygenation on myocardial recovery during reperfusion after hypothermic cardioplegic arrest. Oxygenation with 100% O2 of Plasmalyte B containing high K+ levels caused marked deterioration in myocardial recovery, whereas the mode of oxygenation did not affect recovery after arrest with St. Thomas Hospital solution. Because the major differences between these solutions reside in their respective K+, Mg2+, and HCO3- contents, the effects of variations in the levels of these ions were investigated. The results showed that oxygenation with 100% O2 was deleterious only in the presence of high K+ (29 mmol/L), low Mg2+ (3 mmol/L), and high NaHCO3 (28 mmol/L) levels. The marked decline in mechanical recovery during reperfusion was associated with significant changes in myocardial adenosine triphosphate and intracellular Ca2+ levels. Although an explanation for these findings is not readily available, it is suggested that complex ionic interactions and possibly oxygen free radical generation may lead to intracellular Ca2+ overload, depression in mitochondrial adenosine triphosphate generation, and, hence, deterioration in mechanical recovery.
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PMID:Oxygenation of cardioplegic solutions: a note of caution. 190 52

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