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)

We have previously demonstrated that anoxic preconditioning (APC) protects against a subsequent otherwise 'lethal' anoxic insult in hippocampal slices. Tested here are two hypotheses: (a) APC requires calcium to improve electrical recovery in hippocampal slices; and (b) mild excitation promotes preconditioning neuroprotection. Control hippocampal slices were given a single 'test' anoxic insult followed by reoxygenation. Experimental slices were preconditioned by three short anoxic insults of 1 min separated by 10 min of reoxygenation. At 30 min after the third 'conditioning' insult, slices underwent a 'test' anoxic insult [1 min of anoxic depolarization (AD)], and then slices were reoxygenated. Evoked potentials (EPs) were recorded throughout the experiment. In other slices, APC was emulated by inducing spreading depression (as determined by a negative DC shift) with KCL or by inducing increased neuronal excitability with the excitatory agent 8-cyclopentyl-1, 3-dipropylxanthine (DPCPX) (an adenosine A1 receptor blocker). 'Test' anoxic insults lasted 2 min of AD in these groups. To determine the role of calcium during APC, extracellular CaCl2 was decreased to 0.5 mM but only during the APC episodes ('test' anoxia, 1 min of AD). EP amplitudes recovered significantly better after anoxia in preconditioned slices, and in KCl- and DPCPX-treated slices (147.2+/-33.3, n=8, **p<0.01, 71.7+/-13.5, n=7, **p<0.01, and 117.8+/-37.3, n=5, ***p<0.001, respectively) compared to controls. Decreases in extracellular CaCl2 during APC blocked the recovery of EPs after 'test' anoxia (80.6+/-23.0, n=8). These data confirm that increases in excitability can emulate APC. These data also demonstrate that calcium influx during preconditioning is required for the induction of tolerance during APC.
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PMID:Calcium and increase excitability promote tolerance against anoxia in hippocampal slices. 1037 73

In Helix lucorum snail we studied the effects of ouabain, inhibitor of Na,K-pump, on the depression of cholinosensitivity in command neurons of withdrawal behavior and the role of the intracellular free Ca2+. The cellular analog of the negative learning (habituation) was used Transmembrane integral inward currents were recorded from the identified LPa2, LPa3, RPa3, and RPa2 neurons in ganglia preparation using two-electrode voltage clamp technique. Acetylcholine (ACh) was locally applied iontophoretically. Reduction of neuronal cholinosensitivity was estimated as a depth of depression of the ACh-induced inward current during rhythmic local application of ACh (interstimulus interval of 1-3 min) onto the somatic membrane. Bath application of ouabain (0.1 mM) produced an increase in depression in one group of neurons and its decrease in another group. After 60-150 min of spontaneous diffusion of a calcium ion chelator BAPTA (1 mM) from the intracellular microelectrode, ouabain produced only the increase in depression. If CaCl2 (100 mM) was added to the solution of the voltage-recording intracellular microelectrode, 60 min later ouabain produced only the reduction of the depression of the ACh current. The conclusion is drawn that the inhibition of the Na,K-pump by ouabain modifies the depression of neuronal cholinosensitivity in the cellular analog of habituation. The direction of the modulatory effect depends on the basal concentration of the intracellular free Ca2+.
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PMID:[The Na,K pump regulates a decrease in the cholinosensitivity of the neurons in the snail Helix lucorum taurica Kryn in a cellular analog of habituation: its dependence on intracellular calcium]. 1108 1

The effects of the Na,K pump inhibitor ouabain on the depth of depression of cholinosensitivity of defensive behavior command neurons LPa2, LPa3, RPa3, and RPa2 were studied in the common snail using a cellular analog of habituation; the role of intracellular Ca2+ in these effects was analyzed. Integral acetylcholine-evoked transmembrane currents (ACh currents) were recorded by two-electrode membrane voltage clamping. In one group of neurons, extracellular application of ouabain (0.1 mM) by addition to the bathing solution evoked increases in the depression of the ACh current evoked by rhythmic application of mediator (with interstimulus intervals of 1-3 min) while neurons of the other groups responded with decreases in depression. After spontaneous diffusion of the Ca2+ ion chelator BAPTA (1 mM) from the intracellular microelectrode for 60-150 min, ouabain only increased the level of depression of the ACh current. After intracellular injection of CaCl2 (100 mM), ouabain only decreased the level of depression of the ACh current. It was concluded that inhibition of the Na,K pump modifies depression of the cholinosensitivity of neurons in the cellular model of habituation. The direction of the effect depends on the basal concentration of intracellular Ca2+.
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PMID:The Na,K pump regulates decreases in the cholinosensitivity of neurons in the common snail to a cellular analog of habituation: the role of cellular calcium. 1169 79

Previous investigators have suggested that calcium may play a role in the pathogenesis of myocardial cell damage following ischemia and reperfusion. Twenty-six in-situ blood perfused isovolumic canine preparations were divided into four groups. Group I dogs were maintained normocalcemic during 45 min of reperfusion following 45 min of hypothermic (27 degrees C) ischemic arrest; Group II dogs received CaCl2 (7 mg/kg) after 15 min of reperfusion; Group III dogs received citrate solution (0.8 ml/kg citrate-phosphate-dextrose [CPD]) after 15 min of reperfusion; Group IV dogs received 7 mg/kg of CaCl2 at 5 min after receiving the same citrate dose as Group III after 15 min of reperfusion. In Group II hearts, calcium improved the left ventricular contractility (P < 0.05 vs Group I) without causing additional cellular or subcellular injury. Calcium also appeared to increase myocardial stiffness (alpha(n)) compared to Group I hearts (P < 0.01). In Group III hearts, citrate reduced contractility (P < 0.01 vs Group I) and increased myocardial edema (P < 0.005 vs Group I) without any apparent improvement in cellular or subcellular preservation. In Group IV hearts, calcium reversed the depression of contractility caused by citrate, resulted in no additional morphologic injury, increased myocardial stiffness compared to Group I or Group III (P < 0.005), and minimized myocardial edema (P < 0.005 vs Group I or III). These results suggest that calcium administered after 15 min of reperfusion improves the depression of contractility that follows hypothermic ischemic arrest without causing additional myocardial damage.
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PMID:Effects of calcium administration during post-ischemic reperfusion on myocardial contractility, stiffness, edema, and ultrastructure. 1474 Jul 1

Phosphatidylglycerol (PG) is the only anionic phospholipid in photosynthetic membrane and the important component of photosystem I (PSI). In this study, the interaction of PG with PSI particle from spinach was investigated by using reconstitution method. The results from the properties of electron transport, fluorescence emission, turbidity, and protein secondary structures in PSI complex incorporated into PG liposomes revealed the existence of PSI-PG interactions. A stimulation and an inhibition of oxygen uptake in PSI particle at a low and higher PG/chlorophyll mass ratio, respectively, were observed. Moreover, an additional enhancement and depression of electron flow in the PSI-PG complexes were occurred in the reaction medium containing CaCl2 at concentrations below and above 5 mM, the aggregation threshold of the reconstituted membranes, respectively. The results demonstrated that the maintenance of the structural optimization was needed for a stimulation of electron transport at a low PG/PSI mass ratio, while a decay of this PSI activity at high PG/PSI ratio was the result of inhibition of the energy transfer from LHCI to PSI reaction center induced by the dissociation of LHCI-680.
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PMID:Photochemical activities of plant photosystem I particles reconstituted into phosphatidylglycerol liposomes. 1566 99

It was shown that the thiazole derivative 3-decyloxycarbonylmethyl-4-methyl- 5-(2-hydroxyethyl)thiazole chloride (DMHT) (0.1 mM) reversibly reduced the transmembrane current in solutions of 10 mM CaCl2 and 100 mM KCl via ionic channels produced by alpha-latrotoxin from black widow spider (alpha-LT) and sea anemone toxin (RTX) in the bilayer lipid membranes (BLM). Introduction of DMHT from the cis-side of BLM inhibited transmembrane current by 31.6 +/- 3% and by 61.8 +/- 3% from the trans-side of BLM for alpha-LT channels. Application of DMHT to the cis-side BLM decreased the inward current through the RTX channels by 50 +/- 5%. Addition of Cd(2+) (0.1 mM) to the cis- or trans-side of a membrane after the DMHT induced depression of transmembrane current across the alpha-LT channels caused its further decrease by 85 +/- 5% that coincides completely with the intensity of Cd(2+)-inhibition in the control experiments without DMHT. These data suggest that DMHT may exert its inhibitory action on alpha-LT channels without considerable influence on the ionogenic groups inside the channel cavity. The comparative analysis of effective radii measured for alpha-LT and RTX channels on the cis- (0.9 nm and 0.55 nm, respectively) and the trans-side of BLM (< 0.467 nm for alpha-LT) allowed to propose the blocking action of DMHT for alpha-LT and RTX channels to result from direct penetration into the channel, achieved due to similar hydrodynamic size of blocking molecules and the size of toxin pores.
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PMID:[The thiazole derivative reduces transmembrane currents via ionic channels formed by alpha-latrotoxin and sea anemone toxin in the bilayer lipid membranes]. 1656 3

The vitamin B1 (thiamine) structural analogue 3-decyloxycarbonylmethyl-4-methyl-5-(beta-hydroxyethyl) thiazole chloride (DMHT) (0.1 mM) reversibly reduced transmembrane currents in CaCl2 and KCl solutions via ionic channels produced by latrotoxins (alpha-latrotoxin (alpha-LT) and alpha-latroinsectotoxin (alpha-LIT)) from black widow spider venom and sea anemone toxin (RTX) in the bilayer lipid membranes (BLMs). Introduction of DMHT from the cis-side of BLM bathed in 10 mM CaCl2 inhibited transmembrane current by 31.6+/-3% and by 61.8+/-3% from the trans-side of BLM for alpha-LT channels. Application of DMHT in the solution of 10 mM CaCl2 to the cis-side of BLM decreased the current through the alpha-LIT and RTX channels by 52+/-4% and 50+/-5%, respectively. Addition of Cd2+ (1 mM) to the cis- or trans-side of the membrane after the DMHT-induced depression of Ca2+-current across the alpha-LT channels caused its further decrease by 85+/-5% that coincides favorably with the intensity of Cd2+ blocking in control experiments without DMHT. These data suggest that DMHT inhibiting is not specific for latrotoxin channels only and DMHT may exert its action on alpha-LT channels without considerable influence on the ionogenic groups of Ca2+-selective site inside the channel cavity. The binding kinetics of DMHT with the alpha-LT channel shows no cooperativity and allows to expect that the DMHT binding site of the toxin is formed by one ionogenic group as the slopes of inhibition rate determined in log-log coordinates are 1.25 on the trans-side and 0.68 on the cis-side. Similar pK of binding (5.4 on the trans-side and 5.7 on the cis-side) also suggest that DMHT may interact with the same high affinity site of alpha-LT channel on either side of the BLM. The comparative analysis of effective radii measured for alpha-LT, alpha-LIT and RTX channels on the cis-side (0.9 nm, 0.53 nm and 0.55 nm, correspondingly) and for alpha-LT channel on the trans-side (0.28+/-0.18 nm) with the intensity of DMHT inhibitory action obtained on these channels allowed to conclude that the potency of DMHT inhibition increased on toxin pores of smaller lumen.
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PMID:Vitamin B1 thiazole derivative reduces transmembrane current through ionic channels formed by toxins from black widow spider venom and sea anemone in planar phospholipid membranes. 1715 Jan 77

Intravenous diltiazem can be used to treat myocardial ischemia, hypertension, and supraventricular dysrhythmias, but significant adverse effects including atrioventricular block and hypotension have been reported. At the present time, there is controversy as to which drug is most effective in reversing these sequelae. This study was designed to assess the effectiveness of calcium chloride v epinephrine in reversing these side effects. The hemodynamic and electrophysiologic effects of diltiazem infusion were investigated in eight dogs anesthetized with fentanyl and nitrous oxide/oxygen. This study confirmed that diltiazem infusions in high concentrations produced predominantly atrioventricular conduction depression followed by profound hypotension. Epinephrine infusion proved to be most effective in attenuating and eliminating each of these deleterious side effects. In contrast, calcium chloride did not significantly increase heart rate or blood pressure or reverse atrioventricular block. In two instances calcium chloride produced further depression of atrioventricular conduction, leading to severe bradycardia and sinus arrest. Although calcium chloride increased left ventricular contractile force (LV dP/ dt) and cardiac index (CI), mean arterial pressure was not affected and SVR was further decreased. This study indicates that calcium chloride should not be given to reverse the side effects of diltiazem in the presence of atrioventricular conduction block or profound hypotension. Calcium chloride is indicated only when isolated myocardial depression is present and after the calcium channels have been reopened by epinephrine.
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PMID:Reversal of the adverse cardiovascular effects of intravenous diltiazem in anesthetized dogs. 1717 30

This in vitro study was designed to investigate the effects of calcium addition to substrates differing in source and level of oil on fermentation, gas production, and digestibility parameters. Substrates were made from basal mixtures containing three levels of calcium salt (0, 1, and 2% CaCl2) to contain three levels (3, 6, and 9%) of two types (sunflower and soy) of oil. After collecting from two Holstein bulls and mixing with buffer, rumen fluid was used to incubate the resulting 18 mixtures in duplicate. Ionizable calcium, pH and NH3-N concentration were measured during incubation. Gas production was measured at 6, 12, 24, and 48 h after incubation. Kinetics parameters of gas production and in vitro dry matter digestibility (IVDMD) were calculated from regression coefficients of an exponential equation and a linear equation, respectively. Data were analysed using 3-way ANOVA with repeated measure option in which the parameter time was a subplot. Oil type did not affect pH and ionizable calcium concentration. There were linear increases and decreases in pH and ionizable calcium concentration in response to increasing oil and calcium levels, respectively. However, with increasing oil levels there were no interactions between calcium addition and oil level on pH and ionizable calcium concentration. None of the treatments affected NH3-N concentration. The amount of gas produced from substrates containing sunflower oil was greater than soy oil (41.7 vs. 40.5 ml). Cumulative gas production and amount of gas production from insoluble but slowly fermentable portion of the supplemental mixtures linearly decreased and linearly increased as oil and calcium levels increased in the substrates, respectively. However, interactions of calcium addition and oil level on gas production and kinetics of gas production were lacking. Oil type did not affect IVDMD. Despite lacking main effects, interaction of calcium addition and oil level indicated that increasing calcium level alleviated depression in IVDMD resulting from increasing oil level. In conclusion, increasing oil level depressed, whereas calcium addition stimulated ruminal fermentation. Improvement in IVDMD may partially support that calcium addition alleviates the adverse effects of oil and that more calcium is needed when diets are supplemented with increasing amounts of oil.
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PMID:Impacts of calcium addition and different oil types and levels on in vitro rumen fermentation and digestibility. 1723 4

The present study was undertaken to elucidate the mode of action of methanol extract from aerial parts of L. caulescens (TC-MELc) as spasmolytic agent on in vitro rat ileum test, and investigate the possible antibacterial activity of different extracts from the plant. TC-MELc induced a concentration-dependent (0.001 to 100microg/mL) antispasmodic effect on spontaneous contractions. TC-MELc also (IC50 11.2microg/mL) induced a marked depression on cumulative concentration-response curve for carbachol (Emax=2.3+/-0.3g vs. 0.66+/-0.1g) and serotonin (Emax=1.1+/-0.3g vs. -0.01+/-0.09g). Besides, extract decreased and displaced to the right KCl and CaCl2 concentration-response curves. Moreover, TC-MELc (11.2microg/mL) provoked a total relaxation when ileum strips were contracted with carbachol (1microM) in calcium-free Krebs solution. Pre-treatment with l-NAME (10microM) produced a significant change of the relaxant response and activity was markedly inhibited. Additionally, hexanic (HELc), dichloromethanic (DELc) and methanolic (MELc) extracts from aerial parts were studied to determine their antibacterial activity. DELc showed antibacterial activity on all bacterial strains assayed (<or=100.0microg/mL). Data indicate that L. caulescens contains antibacterial and spasmolytic constituents mediating their effect through blockade of Ca2+ influx and NO release, which may explain its traditional use against diarrhoea.
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PMID:Spasmolytic action of Lepechinia caulescens is through calcium channel blockade and NO release. 1791 15

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