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.beta-Bungarotoxin, crotoxin and taipoxin, presynaptic neurotoxins of snake venom origin, have about the same phospholipid-splitting activities as a much less toxic cobra phospholipase A2 in the presence of Ca2+ and deoxycholate. 2. Sr2+ was a much less effective activator of the enzymes than is Ca2+, the activation by Sr2+ being only 3-6% for beta-bungarotoxin and crotoxin and 12% for taipoxin. 3. Sr2+ also inhibited the Ca2+ -activated enzymes by 80% in the cases of beta-bungarotoxin and crotoxin, but only 16% in the case of taipoxin. 4. Mg2" had no significant effect on beta-bungarotoxin or crotoxin, but activated taipoxin in the presence or absence of Ca2". 5. In Sr2+ -Tyrode lacking Ca2+ all three toxins exhibited the same immediate depression followed by facilitation in the rat and mouse diaphragms, but the final blocking activity was only 3-10% with beta-bungarotoxin and crotoxin and was 30% with taipoxin. 6. In Sr2+ -Tyrode, increasing in the rate of nerve stimulation had less accelerating effect on the development of neuromuscular block than in Ca2+ -Tyrode for any of the toxins. 7. Removal of Mg2+ from Sr2+ -Tyrode did not diminish the potency of taipoxin in blocking neuromuscular transmission, suggesting that enzyme activity at the outer surface of the axolemma does not contribute to the neuromuscular blocking action. 8. All of the results indicate that there are close correlations between the presynaptic activities of these toxins and their phospholipid-splitting activities in the cationic environment prevailing in the axoplasm. Apparently the final blocking effect of these toxins is due to phospholipase A action within the nerve terminal.
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PMID:Effects of Sr2+ and Mg2+ on the phospholipase A and the presynaptic neuromuscular blocking actions of beta-bungarotoxin, crotoxin and taipoxin. 19 83

Using helical strips of the bovine middle cerebral arteries, changes in vascular tension were measured during isometric contractions induced by endothelin. 1) Both Ca(++)-free media and Ca(++)-antagonists depressed the endothelin-induced contractions only by 40% of the control, suggesting the involvement of both Ca(++)-entry from outside the muscle cell and intracellular Ca(++)-release from the sarcoplasmic reticulum. 2) Endothelin-induced contractions were significantly depressed by 1 microgram/ml tetrodotoxin (TTX). Relative size of depression by TTX was practically the same as that observed in Na(+)-free media without TTX. These results indicated a partial involvement of Na(+)-entry through TTX-sensitive Na(+)-channels. 3) Endothelin-induced contractions were effectively depressed by NCDC, an inhibitor of phospholipase C, suggesting the involvement of PI-turnover in the contraction. 4) Protein kinase inhibitors such as H-7 and H-8 effectively depressed endothelin-induced contractions. This result suggested the phosphorylation of a certain protein by protein kinase C as a cause of long lasting contractions. 5) A phospholipase A2 (PL A2) inhibitor, quinacrine, significantly depressed the endothelin-induced contractions, suggesting a possible involvement of PL A2. However, neither the cyclooxygenase inhibitor nor the lipoxygenase inhibitor depressed endothelin-induced contractions.
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PMID:[A pharmacological study on the mechanism of the endothelin-induced contraction of the bovine cerebral artery]. 164 17

Arachidonic acid (AA) is a second messenger liberated via receptor activation of phospholipase A2 or diacylglycerol-lipase. We used whole-cell voltage clamp of acutely isolated hippocampal CA1 pyramidal cells to investigate the hypothesis that AA modulates Ca2+ channel current (ICa) via activation of protein kinase C (PKC) and generation of free radicals. AA depressed ICa in a dose- and time-dependent manner similar to that previously reported for the action of phorbol esters on ICa. A similar depression was seen with a xanthine-based free radical generating system. The specific PKC inhibitor PKCI (19-36), the protein kinase inhibitor H-7, and the superoxide free radical scavenger SOD each blocked ICa depression by 70%-80%. Complete block of the AA response occurred when SOD was used simultaneously with a PKC inhibitor. These data suggest that PKC and free radicals play a role in AA-induced suppression of ICa.
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PMID:Arachidonic acid modulates hippocampal calcium current via protein kinase C and oxygen radicals. 211 31

The direct effects of varying concentrations (5-40 mM) of D,L-carnitine were studied in two populations, subsarcolemmal and interfibrillar, of cardiac mitochondria exposed to inorganic phosphate (Pi). After 5 min preincubation 20 mM Pi significantly depressed oxidative phosphorylation rate and ADP/ATP translocase activity, in both populations. Inclusion of D,L-carnitine during preincubation significantly prevented the Pi-induced depression in oxidative phosphorylation without affecting the ADP/ATP translocate system. The Pi-induced inhibition in mitochondrial oxygen consumption rate was seen with either pyruvate-malate, glutamate-malate or succinate as respiratory substrates and was also observed in uncoupled mitochondria treated with 2,4-dinitrophenol. Mitochondrial swelling and shrinkage studies revealed Pi-induced inner membrane instability, a phenomenon prevented by D,L-carnitine in a dose-dependent manner. The effect of Pi was also observed at a concentration of 5 mM which was also prevented by carnitine. Mepacrine, a phospholipase A2 inhibitor, failed to prevent any of the effects of Pi. The results therefore suggest that Pi can produce a depression in mitochondrial oxidative phosphorylation through a mechanism possibly associated with disturbed inner membrane structure and function but apparently unrelated to phospholipase A2 activation. The salutary actions of carnitine may partly explain its protective effects in the ischemic and reperfused heart, a phenomenon associated with enhanced intracellular Pi accumulation.
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PMID:Reduction of phosphate-induced dysfunction in rat heart mitochondria by carnitine. 225 1

1. Evidence suggests that activation of phospholipase A2 and production of eicosanoids and platelet-activating factor (PAF) are involved in various responses associated with severe tissue damage and shock. It was postulated that the plasma level of the precursor and degradation product of PAF, lyso-platelet-activating factor (lyso-PAF), might be increased in acute severe illness. 2. After plasma extraction, lyso-PAF was acetylated in vitro to PAF, which was measured by bioassay using 5-[14C]hydroxytryptamine-labelled rabbit platelets. Measurements were made in 18 severely ill patients (five with cardiogenic shock; five with severe infection, five after repair of abdominal aortic aneurysm, two with acute pancreatitis; 13 males, five females). Plasma lyso-PAF in these patients was 33 +/- 15 (SD)ng/ml (range 5-111 ng/ml), whereas values in normal males (40-65 years) ranged from 102 to 253 ng/ml (n = 15) and in females from 74 to 174 ng/ml (n = 10). Depression of plasma lyso-PAF did not relate closely to the patient group nor to specific therapy, but repeated measurements in each of 10 patients showed an increase in plasma lyso-PAF (P less than 0.002), associated with clinical improvement. 3. Evidence was obtained indicating that neither the presence of an inhibitor in the assay system nor reconversion of PAF to lyso-PAF in vitro produced the unexpected depression of plasma lyso-PAF. 4. The mechanisms responsible, which may have therapeutic implications, remain to be elucidated.
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PMID:Plasma levels of the lyso-derivative of platelet-activating factor in acute severe systemic illness. 258 28

Uranyl ion (UO2+2) antagonized the neuromuscular blocking action and phospholipase A2 activity of neurotoxins which act presynaptically [beta-bungarotoxin (beta-BuTX) and crotoxin] but did not affect the action of alpha-bungarotoxin and tetrodotoxin. On the basis of the kinetic analysis of the UO2+2 and strontium ion (Sr2+) antagonism of muscle paralysis induced by beta-bungarotoxin, it was found that they inhibited both the binding of the toxin and the steps following binding that brought about the neuromuscular blocking action of beta-bungarotoxin. Uranyl ion was about 50 times more potent than Sr2+ in antagonizing beta-bungarotoxin. High Ca2+ (10 mM) abolished but low Ca2+ (0.25-1.25 mM) medium enhanced the antagonizing action of UO2+2 and Sr2+. In low Ca2+ medium, UO2+2 markedly potentiated the amplitude of the twitch, subsequent addition of beta-bungarotoxin produced three phases of effects on the twitches, e.g. an initial depression, followed by the second facilitation and finally a rapid depression of twitches; however, approx. 70 min after beta-bungarotoxin the small twitches reached a steady state which persisted for more than 350 min. Therefore, it is evident that UO2+2 is the most potent antagonist of beta-bungarotoxin so far tested.
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PMID:Antagonistic action of uranyl nitrate on presynaptic neurotoxins from snake venoms. 300 6

Pretreatment of the ischemic myocardium with verapamil protects against mitochondrial respiratory depression observed during ischemic arrest as well as during reperfusion. Since ischemic mitochondrial function appears not to be altered further by reperfusion, the purpose of this study is to identify a biochemical event affecting mitochondria that is specifically associated with reperfusion injury. It has been proposed that increased cellular Ca2+ influx and oxygen toxicity may result from reintroduction of coronary flow. Increased cytosolic Ca2+ is transmitted to the mitochondria with subsequent activation of Ca2+-dependent events, including phospholipase A2. Net production of lysophospholipids (and loss of total diacylphospholipids from the mitochondria) will proceed when reacylation mechanisms are inhibited. Since acyl-CoA:lysophospholipid acyltransferase is a sulfhydryl-sensitive enzyme and since increased activity of glutathione peroxidase shifts the levels of the mitochondrial sulfhydryl buffer, glutathione, towards oxidation, levels of glutathione and its oxidation state were measured during reperfusion in the absence or presence of verapamil pretreatment. Ischemia lowers total glutathione and reduces the redox ratio (reduced glutathione: oxidized glutathione) by 85%. Reperfusion partially returns the redox ratio to control by causing oxidized glutathione to disappear from the matrix. Verapamil maintains both the concentration and the redox potential of glutathione at control levels. Concomitant with alterations in reduced glutathione:oxidized glutathione is a decrease in ischemic mitochondrial phospholipid content. During reperfusion, phosphatidylethanolamine and its major constituent fatty acids (C 18:0 and C 20:4) are specifically lost from the mitochondrial membrane. Accompanying the significant loss of arachidonic acid during reperfusion is the decreased content of 11-OH, 12-OH, and 15-OH arachidonate. These lipid peroxidation products are not increased in ischemia. It is proposed that oxidation of matrix glutathione to glutathione disulfide during ischemia results in formation of glutathione-protein mixed disulfides and inhibition of sulfhydryl-sensitive proteins, including acyl-CoA lysophosphatide acyltransferase. Thus, metabolic events occurring within the ischemic period set the stage for prolonged dysfunction during reperfusion.
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PMID:Protection by verapamil of mitochondrial glutathione equilibrium and phospholipid changes during reperfusion of ischemic canine myocardium. 362 93

Phospholipase A2 activity was studied in the isolated rat heart following coronary artery ligation. In both the homogenate and mitochondrial fractions phospholipase A2 activity was significantly depressed at 20 min post ligation in the ischaemic region only. This is at a time of peak lysophospholipid concentration and severity of arrhythmias. No such depression of activity was seen in a crude sarcolemmal fraction, possibly due to washout of inhibitory factors during isolation. Lysophosphatidylcholine and palmitoylcarnitine, two amphiphiles known to accumulate during ischaemia, were both shown to be capable of inhibiting phospholipase A2. It is suggested that lysophospholipid and palmitoylcarnitine accumulation during ischaemia may contribute to the depression of phospholipase A2 activity seen and that the decreased metabolism of lysophospholipids may be of more importance in their accumulation than increased production by phospholipase A2.
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PMID:The effects of ischaemia, lysophosphatidylcholine and palmitoylcarnitine on rat heart phospholipase A2 activity. 366 3

Cepharanthine incorporated into rabbit platelets dose dependently, inhibited calcium influx as well as aggregation in response to collagen, and also inhibited arachidonate release in response to collagen and A23187 in the same concentration ranges. The latter action of cepharanthine was shown not to be due to the direct action on phospholipase A2 molecules but to the depression of susceptibility of substrate phospholipids to enzymatic hydrolysis. These depressed functions, as well as the inhibited aggregation, were almost restored by removing the bound drugs from the platelets. Arachidonate-induced aggregation and prostaglandin synthesis from externally added arachidonate were not suppressed by the addition of cepharanthine. These results suggest that cepharanthine physically changes the lipid properties and thereby inhibits the function of the calcium channel or the susceptibility of substrate phospholipids to enzymatic hydrolysis by phospholipase A2.
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PMID:Inhibitory effect of cepharanthine on collagen-induced activation in rabbit platelets. 392 12

The refined high resolution crystal structure of the bovine phospholipase A2 was compared with its counterpart from the venom of Crotalus atrox, the western diamondbacked rattlesnake. The strong similarity in their backbone conformations forms the basis of a common numbering system for the amino acid sequence. The three common major helices and much of the extended chain form a nearly identical "homologous core" structure. The variations in conformation usually arise from deletions/insertions or en bloc shifts of structural units. The exception to this is part of the highly conserved calcium-binding loop; however, this is to be expected as 1) there is no calcium ion sequestered in the venom dimer as there is in the case of the bovine enzyme and 2) two side chains in that segment form dimer-stabilizing interactions between the subunits of the C. atrox enzyme. The absolutely conserved catalytic network of hydrogen-bonded side chains formed by His 48, Tyr 52, Tyr 73, and Asp 99, as well as the hydrophobic wall that shields it, are virtually superimposable in the two structures. However, the details of the structural relationship between the amino terminus and the catalytic network differ in the two species and the ordered water molecules thought to be either functionally or structurally important in the pancreatic enzymes are not found in the crystal structure of the phospholipase A2 from C. atrox. The most striking difference from a functional standpoint is the fact that the surface depression in the region of the catalytic network that has been commonly considered the active site is shielded substantially in forming the intersubunit contact surface of the dimeric venom enzyme.
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PMID:A comparison of the crystal structures of phospholipase A2 from bovine pancreas and Crotalus atrox venom. 404 72

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