UNIPROT:P00750 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P00750 (PLA)
16,800 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Lithium, used to treat bipolar disorder, has been reported to decrease rat brain mRNA and protein levels of cytosolic phospholipase A(2) (cPLA(2)), an enzyme that selectively hydrolyzes arachidonic acid from the stereospecifically numbered (sn)-2 position of membrane phospholipids, and to decrease PLA(2) activity. cPLA(2) can be activated by being phosphorylated at its Ser-228, Ser-505, and Ser-727 sites. In this study, we show that the percent phosphorylated cPLA(2) protein in rat brain is unaffected by lithium. Male Fischer-344 rats were fed lithium chloride for 6 weeks, so as to produce a therapeutically equivalent brain lithium concentration; control rats were fed lithium-free chow under parallel conditions. cPLA(2) was immunoprecipitated from brain homogenate and phosphorylated cPLA(2) protein was quantified using an anti-phosphoserine antibody, and compared to net cPLA(2) protein. The mean ratio of phosphorylated/total cPLA(2) was not changed significantly in the lithium-treated compared to the control group. Thus, decreased brain PLA(2) enzyme activity caused by chronic lithium is likely a consequence only of lithium's downregulation of cPLA(2) transcription.
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PMID:Lithium chloride, administered chronically to rats, does not affect the fractional phosphorylation of brain cytosolic phospholipase A2, while reducing its net protein level. 1246 3

Major depressive disorder (MDD) is a common disabling psychiatric illness with an unknown etiology. Evidence from animal and human studies suggests that a disturbance in serotonergic (5-HT) activity and/or brain-derived neurotrophic factor (BDNF) signaling may be implicated in the pathogenesis of MDD. Recently, a protein, p11, has been found to increase the number of 5-HT(1B) receptors on the surface of cells and enhance 5-HT(1B) receptor function. Furthermore, mice over-expressing p11 acted as if they were undergoing treatment with antidepressants and p11 knockout mice exhibit a depression-like phenotype and reduced behavioural reactions to an antidepressant. As tissue-type plasminogen activator (tPA)/plasminogen proteolytic cascade is implicated in the cleavage of proBDNF to BDNF, and p11, a component of the Annexin II, which can greatly enhance the activation of plasmin by tPA, it is proposed that p11 may act through the tPA/plasminogen/BDNF pathway to achieve its antidepressant effect. Attempts to confirm this hypothesis may lead to new directions in the study of the pathogenesis of MDD and the development of a novel intervention for this disorder. In addition, BDNF is also implicated in several psychiatric diseases such as schizophrenia, bipolar disorder, attention-deficit hyperactivity disorder and Alzheimer's disease; whether p11 and other components related to the tPA/plasminogen pathway may be related to the pathogenesis of these diseases needs further exploration.
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PMID:The P11, tPA/plasminogen system and brain-derived neurotrophic factor: Implications for the pathogenesis of major depression and the therapeutic mechanism of antidepressants. 1689 Mar 84

Chronic administration to rats of mood-stabilizers that are effective against mania in bipolar disorder, is reported to downregulate markers of the brain arachidonic acid cascade. We hypothesized that chronic administration of lamotrigine, which is used to treat depression and rapid cycling in bipolar disorder, might do so as well. Male CDF rats were administered a therapeutically relevant dose of lamotrigine (10 mg/kg) or vehicle intragastrically once daily for 42 days. Protein levels of isoforms of phospholipase A(2) (PLA(2)) and of cyclooxygenase (COX), and the mRNA level of COX-2, were quantified in the frontal cortex using immunoblotting and RT-PCR, respectively. Compared to vehicle-treated rats, chronic lamotrigine significantly decreased frontal cortex protein and mRNA levels of COX-2 without altering protein levels of the PLA(2) isoforms. Consistent with the hypothesis, lamotrigine and other mood-stabilizers have a common downregulatory action on COX-2 expression in rat brain, which may account in part for their efficacy in bipolar disorder.
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PMID:Chronic administration of lamotrigine downregulates COX-2 mRNA and protein in rat frontal cortex. 1808 Jan 90

Agents effective against mania in bipolar disorder are reported to decrease turnover of arachidonic acid (AA) in phospholipids and expression of calcium-dependent AA-selective cytosolic phospholipase A(2) (cPLA(2)) in rat brain. In contrast, fluoxetine, an antidepressant that is reported to switch bipolar depressed patients to mania, increases cPLA(2) expression and AA turnover in rat brain. We therefore hypothesized that antidepressants that increase switching to mania generally increase cPLA(2) and AA turnover in brain. To test this hypothesis, adult male CDF-344 rats were administered imipramine and bupropion, with reported high and low switching rates, respectively, at daily doses of 10 and 30 mg kg(-1) i.p., respectively, or i.p. saline (control) for 21 days. Frontal cortex expression of different PLA(2) enzymes and AA turnover rates in brain when the rats were unanesthetized were measured. Compared with chronic saline, chronic imipramine but not bupropion significantly increased cortex cPLA(2) mRNA activity, protein and phosphorylation, expression of the cPLA(2) transcription factor, activator protein-2alpha (AP-2alpha) and AA turnover in phospholipids. Protein levels of secretory phospholipase A(2), calcium-independent phospholipase A(2), cyclooxygenase (COX)-1 and COX-2 were unchanged, and prostaglandin E(2) was unaffected. These results, taken with prior data on chronic fluoxetine in rats, suggest that antidepressants that increase the switching tendency of bipolar depressed patients to mania do so by increasing AA recycling and metabolism in brain. Mania in bipolar disorder thus may involve upregulated brain AA metabolism.
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PMID:Chronic imipramine but not bupropion increases arachidonic acid signaling in rat brain: is this related to 'switching' in bipolar disorder? 1898 3

Kinetic methods in unanesthetized rodents have shown that turnover rates of arachidonic acid (AA) and docosahexaenoic acid (DHA) in brain membrane phospholipids are rapid and energy consuming and that phospholipase A(2) (PLA(2)) and acyl-CoA synthetase enzymes that regulate turnover are specific for one or the other PUFA. Thus, AA turnover in brain phospholipids was reduced, and AA-selective cytosolic cPLA(2) or acyl-CoA synthetase, as well as cyclooxygenase (COX)-2, were downregulated in brains of rats given drugs effective against bipolar disorder, whereas DHA turnover and expression of DHA-selective calcium-independent iPLA(2) were unchanged. Additionally, the brain AA and DHA cascades can be altered reciprocally by dietary or genetic conditions. Thus, following 15 wk of dietary (n-3) PUFA deprivation, DHA loss from rat brain was slowed because of reduced iPLA(2) and COX-1 expression, whereas AA-selective cPLA(2), sPLA(2), and COX-2 were upregulated, as were AA and docosapentaenoic acid concentrations. Measured rates of AA and DHA incorporation into brain represent their respective rates of metabolic consumption, because these PUFA are not synthesized de novo or converted significantly from their precursors in brain. In healthy human volunteers, positron emission tomography (PET) was used to show that the brain consumes AA and DHA at respective rates of 17.8 and 4.6 mg/d, whereas in patients with Alzheimer disease, AA consumption is elevated. In the future, PET could be used to relate human brain rates of AA and DHA consumption to liver PUFA metabolism and dietary PUFA intake.
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PMID:Arachidonic acid and the brain. 1902 81

In rats, FDA-approved mood stabilizers used for treating bipolar disorder (BD) selectively downregulate brain markers of the arachidonic acid (AA) cascade, which are upregulated in postmortem BD brain. Phase III clinical trials show that the anticonvulsant gabapentin (GBP) is ineffective in treating BD. We hypothesized that GBP would not alter the rat brain AA cascade. Chronic GBP (10 mg/kg body weight, injected i.p. for 30 days) compared to saline vehicle did not significantly alter brain expression or activity of AA-selective cytosolic phospholipase A(2) (cPLA(2)) IVA or secretory (s)PLA(2) IIA, activity of cyclooxygenase-2, or prostaglandin E(2) or thromboxane B(2) concentrations. Plasma esterified and unesterified AA concentration was unaffected. These results, taken with evidence of an upregulated AA cascade in the BD brain and that approved mood stabilizers downregulate the rat brain AA cascade, support the hypothesis that effective anti-BD drugs act by targeting the brain AA cascade whereas ineffective drugs (such as GBP) do not target this pathway, and suggest that the rat model might be used for screening new anti-BD drugs.
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PMID:Gabapentin's minimal action on markers of rat brain arachidonic acid metabolism agrees with its inefficacy against bipolar disorder. 2284 17

Bipolar disorder I and II are affective disorders with mood changes between depressive and manic (bipolar I) or hypomanic (bipolar II) periods. Current therapy of these conditions is chronic treatment with one or more of the anti-bipolar drugs, Li(+) ('lithium'), carbamazepine and valproic acid. The pathophysiology of bipolar disorder is multifactorial and far from clear. Recent data on the dependence of normal brain function on neuronal-astrocytic interactions raise the possibility of astrocytic involvement. We will discuss our previously published and new results on effects of chronic treatment of primary cultures of normal mouse astrocytes with any of three conventional anti-bipolar drugs. The focus will be on several drug-induced events in relation to therapeutic effects of the drugs, such as myo-inositol uptake, intracellular pH and alkalinization, drug-induced modulation of glutamatergic activity in astrocytes and release of astrocytic 'gliotransmitters'. Finally, we will discuss the importance of phospholipase A2 (PLA(2)) and arachidonic acid cascade in drug-treated astrocytes, partly based on Dr. Barneda Cuirana's published thesis. All three drugs cause gradual intracellular alkalinization through different mechanisms. Alkalinization inhibit myo-inositol uptake, resulting in reduced inositolphosphate/phospholipid signaling. Accordingly, transmitter-induced increase in free intracellular Ca(2+) ([Ca(2+)](i)) becomes inhibited, aborting release of astrocytic 'gliotransmitters'. The reduction of "gliotransmitter" effects on neurons may have therapeutic effects in mania. Alkalinization also up-regulates expression of cPLA(2), an enzyme releasing arachidonic acid, and triggered arachidonic acid cascade and production, but perhaps not release, of prostaglandins. Whenever tested, identical effects were observed in freshly isolated astrocytes, but not neurons, from carbamazepine-treated healthy animals.
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PMID:Chronic treatment with anti-bipolar drugs causes intracellular alkalinization in astrocytes, altering their functions. 2296 52

In this study, high surface area mesoporous silica foam with cellular pore morphology (MCF) was used for injectable delivery of paliperidone, an antipsychotic drug used in patients suffering from bipolar disorder. The aim was to enhance paliperidone solubility and simultaneously to prepare long active intractable microspheres. For this reason paliperidone was first loaded in MCF silica, and the whole system was further encapsulated into PLA and PLGA 75/25w/w copolymer in the form of microspheres. It was found that paliperidone, after its adsorption into MCF, was transformed in its amorphous state, thus leading to enhanced in vitro dissolution profile. Furthermore, incorporation of the drug-loaded MCF to polymeric microparticles (PLA and PLGA) prolonged the release time of paliperidone from 10 to 15days.
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PMID:Use of mesoporous cellular foam (MCF) in preparation of polymeric microspheres for long acting injectable release formulations of paliperidone antipsychotic drug. 2838 42

In this study, mesocellular silica foam (MCF) was used to encapsulate paliperidone, an antipsychotic drug used in patients suffering from bipolar disorder. MCF with the drug adsorbed was further encapsulated into poly(lactic acid) (PLA) and poly(lactide-co-glycolide) (PLGA) 75/25 w/w microspheres and these have been coated with thiolated chitosan. As found by TEM analysis, thiolated chitosan formed a thin layer on the polymeric microspheres' surface and was used in order to enhance their mucoadhesiveness. These microspheres aimed at the intranasal delivery of paliperidone. The DSC and XRD studies showed that paliperidone was encapsulated in amorphous form inside the MCF silica and for this reason its dissolution profile was enhanced compared to the neat drug. In coated microspheres, thiolated chitosan reduced the initial burst effect of the paliperidone dissolution profile and in all cases sustained release formulations have been prepared. The release mechanism was also theoretically studied and three kinetic models were proposed and successfully fitted for a dissolution profile of prepared formulations to be found.
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PMID:Thiolated Chitosan Masked Polymeric Microspheres with Incorporated Mesocellular Silica Foam (MCF) for Intranasal Delivery of Paliperidone. 3096 19