Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0036341 (schizophrenia)
 60,220 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The potential role of receptor-stimulated phosphatidylinositol (PI) hydrolysis in a signal transduction mechanism has been increasingly recognized. Earlier studies have suggested a defect in alpha-adrenergic receptor function in the platelets of schizophrenic patients. Little is known, however, about the mechanisms for PI synthesis, breakdown, and regulation in schizophrenia. The present study was undertaken to investigate the metabolic turnover of inositol phospholipids and inositol phosphates by incorporation of [3H]myoinositol or [32P]orthophosphate into resting and activated platelets of normal controls and schizophrenic patients with and without neuroleptic treatment. After 5 h incubation at 37 degrees C, the majority of [3H]myoinositol was incorporated into platelet PI. Following thrombin-induced platelet activation, there was rapid formation of 3H-labeled inositol phosphates (IPs) with inositol monophosphate (IP1) being the most abundant product. The thrombin-induced formation of platelet IPs was found significantly higher in both haloperidol-stabilized and drug-free schizophrenics than in normal control subjects. When platelets were prelabeled with [32P]orthophosphates, thrombin-induced formation of phosphatidic acid (PA) was also significantly higher in haloperidol-stabilized schizophrenics than in normal controls. It is thought that thrombin-induced platelet activation is mediated through hydrolysis of polyphosphoinositides (poly-PI). The present data thus may reflect an increased signal transduction in schizophrenia, which is mediated through neuroleptic-regulated inositol phospholipid hydrolysis.
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PMID:Increased turnover of platelet phosphatidylinositol in schizophrenia. 135 96

Signal transduction, mediated by the thrombin-stimulated polyphoshoinositide (PPI) turnover was studied in platelets from 44 schizophrenic patients and 33 healthy volunteers. The stimulated generation of inositol phosphates in the schizophrenic group was significantly greater than that in the control group. There was a lack of correlation between this augmented response and a variety of clinical parameters. The response in 9 drug-naive schizophrenic patients was not significantly different from that in controls. The response was significantly augmented in patients receiving neuroleptic treatment and in patients who had been off neuroleptics for at least 4 months. These results indicate that neuroleptic treatment may produce a long-term modification of signal transduction via the PPI system. Further studies are required to elucidate the exact nature of this modification and to explore the possibility that this effect of the neuroleptics may provide a novel approach to understanding the neurochemistry of schizophrenia and to monitoring the neuroleptic treatment.
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PMID:The platelet polyphosphoinositide system in schizophrenia: the effects of neuroleptic treatment. 197 77

Schizophrenia has a diverse nature of clinical symptoms and a number of hypotheses have been suggested to explain its aetiological basis. In this study we have examined two aspects of membrane function, receptor-activated calcium mobilization and calcium activated nitric oxide synthase activity in schizophrenic subjects. Thrombin induces mobilization of calcium ions from intracellular stores. The platelet response of drug naive schizophrenics was found to be significantly increased over a range of thrombin concentrations (0.01 to 0.60 U/ml) compared to control subjects. Possible involvement of nitric oxide (NO) in the aetiology of schizophrenia was investigated. NO has been functionally linked to both dopaminergic and glutamatergic systems both of which are strongly implicated in the biochemical pathology of schizophrenia. Nitric oxide synthase (NOS) activity was determined in platelets of controls, schizophrenic and panic disorder subjects. Enzyme activity was found to be significantly higher in platelets of drug naive schizophrenic subjects compared to controls, drug treated schizophrenics and panic disorder subjects. It is suggested that there is an imbalance of the calcium-induced L-arginine- nitric oxide pathway in platelets of schizophrenic subjects which may be modified by neuroleptic treatment. This imbalance may be mirrored in the central nervous system in particular at the NMDA receptor. It is possible that such a disturbance in the L-arginine-nitric oxide pathway may have pathological implications in the aetiology of schizophrenia.
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PMID:Elevated platelet calcium mobilization and nitric oxide synthase activity may reflect abnormalities in schizophrenic brain. 754 74

Incorporation of [3H]arachidonic acid (AA) into resting platelets was studied in samples from schizophrenic patients before and after haloperidol withdrawal, and from normal subjects. Eicosanoid biosynthesis was subsequently evaluated in prelabeled platelets by sequential events of thrombin activation. The total incorporation of [3H]AA in drug-free patients was significantly lower than in the same individuals during haloperidol treatment as well as in normal volunteers. No significant difference of [3H]AA incorporation was demonstrated between relapsed and nonrelapsed drug-free patients. The majority of 3H-labeled lipids were found in platelet phospholipids, and < 10% of incorporated lipids were found in free AA, diacylglycerol (DAG), triacylglycerol, and hydroxyeicosatetraenoic acid (HETE) of normal resting platelets. After thrombin activation, however, there was an increased 3H-labeling in 12-HETE, 12-hydroxyheptadecatrienoic acid, and thromboxane B2. The thrombin-induced formation of eicosanoids was found to be significantly higher in haloperidol-treated patients than in normal volunteers. This increased formation of eicosanoids appeared to be normalized after haloperidol withdrawal. In addition, both haloperidol-treated and drug-free patients showed increased 3H-labeling in thrombin-induced DAG compared with normal volunteers. Such an increase in the second messenger formation may be due, at least in part, to an increased turnover of membrane phosphoinositides via phospholipase C reaction. The present data support our previous findings demonstrating altered membrane dynamics in schizophrenia.
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PMID:Abnormal incorporation of arachidonic acid into platelets of drug-free patients with schizophrenia. 885 64

Incorporation of 3H-arachidonic acid (AA) into resting platelets was carried out in normal control subjects as well as in schizophrenic patients before and after haloperidol (HD) withdrawal. Metabolic turnover of membrane phospholipids was subsequently evaluated in prelabelled platelets at various time intervals after thrombin activation. 3H-AA was mainly incorporated into phosphatidylethanolamine (PE), phosphatidylcholine (PC), phosphatidylinositol (PI) and phosphatidylserine (PS) of resting platelets. Very minute amounts of 3H-labelling were found in phosphatidic acid (PA). Following thrombin activation, however, substantial amounts of 3H-labelling were found in PA. Such an increase in thrombin-induced PA formation was not reduced in schizophrenic patients both receiving and not receiving HD treatment. Increased labelling has been found in platelet diacylglycerol (DAG) after thrombin activation. It is therefore not likely that a decreased DAG kinase activity contributes to the accumulation of DAG. However, the thrombin-induced PA production was temporally associated with a decreased 3H-labelling in PI, but not in PC, PS and PE. The present data taken together with our previous findings suggest that the increased production of second messengers (DAG, PA and inositol phosphates) in schizophrenia may result from an increased phospholipase C (PLC) activity in schizophrenia, because thrombin-induced platelet activation is mediated by polyphosphoinositide hydrolysis through the G-protein activation.
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PMID:Incorporation of 3H-arachidonic acid into platelet phospholipids of patients with schizophrenia. 888 19

Alterations in phospholipid metabolism in blood elements have been proposed as the possible biochemical marker of schizophrenia. In the present study, we investigated the composition and membrane distribution of phospholipids in platelets of drug-free schizophrenic patients and controls. We have demonstrated that platelets of drug-free schizophrenics have significantly higher cytosolic Ca2+ levels in comparison with healthy controls. Platelets of drug-free schizophrenic patients have a lower content of phosphatidylinositol (PI). After thrombin activation, PI is the target of phospholipase C instead of phosphatidylinositol 4,5-bisphosphate (PIP2), which is hydrolyzed in platelets of controls. Alterations in the distribution of phospholipids were found in the plasma membrane of platelets of schizophrenic patients. We suggest that alterations in phospholipid metabolism might be evoked by a disturbance of calcium homeostasis in schizophrenic patients.
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PMID:Phospholipids and calcium alterations in platelets of schizophrenic patients. 972 23

The mortality risk associated with cardiovascular disease is significantly increased in patients with major depression and panic disorder. The mechanism of this phenomenon is unclear. Thrombin is responsible for platelet aggregation and shape change, and it plays a significant role in the development of thromboembolic events. In this study, we examined the platelet second messenger intracellular calcium response to thrombin stimulation in patients with major depression (n = 13), major depression after response to electroconvulsive therapy (ECT; n = 13), subsyndromal depression (n = 16), schizophrenia (n = 15), and control subjects (n = 65). Patients with major depression had significantly higher intracellular calcium responses to thrombin stimulation than control subjects, patients with subsyndromal depression, and patients with schizophrenia (p < 0.05). Electroconvulsive therapy did not significantly change this supersensitivity. This suggests that the platelet response to activation in patients with major depression is supersensitive. This study suggests a possible mechanism for the increased risk of cardiovascular disease that is seen in these two psychiatric disorders. The lack of difference between the control and subsyndromal depression groups appears to validate current diagnostic thresholds in depression. The failure of nonpharmacologic treatment to alter this marker suggests that it may be a trait marker of depression.
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PMID:Platelet supersensitivity to thrombin stimulation in depression: a possible mechanism for the association with cardiovascular mortality. 1102 Jan 20

Although heterotrimeric guanine nucleotide-binding regulatory (G) proteins have been implicated in the pathophysiology of mental illnesses (especially mood disorders), direct evidence has been scarce. This study was designed to reveal possible abnormalities of receptor-coupled G protein function in platelets in patients with psychiatric disorders such as depression and schizophrenia. The functional status of alpha(2A)-adrenergic receptor-coupled G(i2) and thrombin receptor-coupled G proteins (G(i2)+G(q)) was determined by the increase in high-affinity GTPase activity in response to epinephrine and thrombin, respectively, in platelet membranes from 18 patients with mood disorders (15 unipolar and three bipolar subtype), 13 schizophrenic patients, four neurotic patients and 29 healthy control subjects. Neither alpha(2A)-adrenergic receptor-coupled G(i2) nor thrombin receptor-coupled G(q) was functionally altered in platelets from psychiatric patients compared with control subjects. No significant correlation was observed between these biochemical measures in platelets and severity of psychopathological symptoms. The functional coupling efficiency of G proteins with receptors appears intact, at least between alpha(2A)-adrenergic receptors and G(i2), and between thrombin receptors and G(q), in platelets from patients with psychiatric disorders.
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PMID:Epinephrine- and thrombin-stimulated high-affinity GTPase activity in platelet membranes from patients with psychiatric disorders. 1242 57

Dysregulated protein kinase C (PKC) distribution and activation, and abnormal receptor-G protein coupling, have been implicated in the pathophysiology of bipolar affective disorder (BD). The therapeutic effectiveness of lithium has also been correlated with its ability to reduce PKC activation and G protein-mediated signaling. We examine the cellular distribution and activation of PKC and receptor-G protein coupling in blood platelets from normal controls, patients with BD mania or schizophrenia during treatment-free state, and after lithium or valproic acid administration. PKC activity was measured under basal and 50 nM phorbol 12-myristate, 13-acetate (PMA), 1 microM serotonin or 0.5 U/ml thrombin-stimulated conditions. The coupling of G proteins to serotonin or thrombin receptors were assessed by serotonin or thrombin-mediated [35S]GTPgammaS binding to membrane Galpha proteins. The results demonstrate that membrane-associated PKC activity and stimulus-induced PKC translocation are increased in BD manic, whereas stimulus-elicited PKC translocation is attenuated in schizophrenic patients. Lithium and valproic acid treatments attenuated the stimulus-induced PKC translocations to a similar degree and decreased PKC activity in both cytosolic and membranous fractions after two weeks of drug administration. An increase in 5-HT or thrombin stimulated [35S]GTPgammaS binding to Galpha proteins was detected in BD manic but not in schizophrenic patients although basal [35S]GTPgammaS binding was not different across the diagnostic groups. Lithium and valproic acid treatments similarly reduced receptor-G protein coupling with comparable time courses. Thus, increased membrane-associated PKC, cytosol to membrane PKC translocation and receptor-G protein coupling in platelets of BD manic patients were alleviated by lithium or valproic acid treatments.
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PMID:Lithium and valproic acid treatments reduce PKC activation and receptor-G protein coupling in platelets of bipolar manic patients. 1604 35

Oxidative stress in blood platelets is observed in various diseases, including neuropsychiatric disorders. The aim of our study was to evaluate oxidative stress in blood platelets from patients with schizophrenic disorders by measuring the activity of the platelet antioxidative enzyme, superoxide dismutase (SOD), concomitant with the level of thiobarbituric acid reactive species (TBARS). In blood platelets obtained from schizophrenic patients (with paranoid schizophrenia according to DSM-IV criteria) and from healthy volunteers the level of reactive oxygen species was also measured via chemiluminescence. In resting blood platelets from schizophrenic patients the chemiluminescence was higher than in platelets from control subjects (P < 0.05), but in thrombin-activated platelets an increase (about 53%) of chemiluminescence was observed, however this increase was lower than in thrombin-stimulated platelets from healthy subjects (101.5%). The results indicate that in platelets from schizophrenic patients generation of reactive oxygen species is enhanced. Moreover, we observed that SOD activity in blood platelets from schizophrenic patients was significantly lower than in control platelets and that a correlation exists between increased lipid peroxidation and inhibition of the activity of this antioxidative enzyme in schizophrenic platelets.
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PMID:Oxidative stress in blood platelets from schizophrenic patients. 1623 99


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