Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

As compared to normal people, the lymphocytes of patients with schizophrenia were found to have an impairment of ATP.Mg-dependent protein phosphatase activation. More importantly, the impaired protein phosphatase activation in the lymphocytes of schizophrenic patients could be consistently and completely restored to normal by exogenous pure protein kinase FA/glycogen synthase kinase-3 alpha (kinase FA/GSK-3 alpha) (the activating factor of ATP.Mg-dependent protein phosphatase), indicating that the molecular mechanism for the impaired protein phosphatase activation in schizophrenic patients may be due to a functional loss of kinase FA/GSK-3 alpha. Immunoblotting and kinase activity analysis in an anti-kinase FA/GSK-3 alpha immunoprecipitate further demonstrate that both cellular activities and protein levels of kinase FA/GSK-3 alpha in the lymphocytes of schizophrenic patients were greatly impared as compared to normal controls. Statistical analysis revealed that the lymphocytes isolated from 37 normal people contain kinase FA/GSK-3 alpha activity in the high levels of 14.8 +/- 2.4 units/mg of cell protein, whereas the lymphocytes of 48 patients with schizophrenic disorder contain kinase FA/GSK-3 alpha activity in the low levels of 2.8 +/- 1.6 units/mg, indicating that the different levels of kinase FA/GSK-3 alpha activity between schizophrenic patients and normal people are statistically significant. Taken together, the results provide initial evidence that patients with schizophrenic disorder may have a common impairment in the protein levels and cellular activities of kinase FA/GSK-3 alpha, a multisubstrate protein kinase and a multisubstrate protein phosphatase activator in their lymphocytes.
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PMID:Dysfunction of protein kinase FA/GSK-3 alpha in lymphocytes of patients with schizophrenic disorder. 853 May 29

Glycogen synthase kinase-3 (GSK-3) is a highly conserved serine/threonine protein kinase that is involved in the signal transduction cascades of multiple cellular processes. GSK-3 has two isoforms, designated alpha and beta. GSK-3beta protein levels and GSK-3 enzyme activity have been reported to be reduced by over 40% in postmortem frontal cortex of schizophrenic patients. GSK-3 is also present in peripheral tissue such as lymphocytes. In this study we aimed to find whether the reduction in brain GSK-3beta measures is reflected in peripheral tissue of schizophrenic patients. Fresh lymphocytes from schizophrenic patients showed no difference in GSK-3 alpha and GSK-3beta mRNA levels, GSK-3beta protein levels, or total GSK-3 (alpha+beta) enzyme activity compared with findings in control subjects. In addition, lymphocyte-derived cell lines from schizophrenic patients did not differ in their GSK-3beta protein levels from levels in normal control subjects. The results rule out the use of lymphocyte GSK-3 as a marker for central GSK-3 abnormalities in schizophrenia.
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PMID:GSK-3 parameters in lymphocytes of schizophrenic patients. 1237 50

The Neurodevelopmental Hypothesis of the etiology of schizophrenia suggests that interaction between genetic and environmental events occurring during critical early periods in neuronal growth may negatively influence the way by which nerve cells are laid down, differentiated and selectively culled by apoptosis. Recent advances toward understanding the regulation of brain development offer insights into possible mechanisms of developmental brain changes. One such factor is the Wnt family of genes, which plays a central role in normal brain development. Activation of the Wnt cascade leads to inactivation of glycogen synthase kinase-3 beta (GSK-3 beta), accumulation and activation of beta-catenin and expression of genes involved in neuronal development. It has been proposed that alteration in the transduction cascade of the Wnt signaling pathway represents an aberrant neurodevelopment in schizophrenia. The role of GSK-3 in developmental brain changes in schizophrenia may not be restricted to the Wnt signaling cascade. GSK-3 alpha, reported to be 80% lower in lymphocytes of schizophrenic patients is a regulatory enzyme of some neuronal proteins implicated to be aberrant in schizophrenia. Programmed cell death is an essential component of normal brain development. Spatial or temporal errors in the stimuli that initiate this pathway or processes within it can result in pathological neuronal development. Increased density of neuronal population in the cortical subplate, found in postmortem brains of schizophrenic patients may imply reduced programmed cell death. The possible role of GSK-3 beta, a pro-apoptotic factor participating in signal transduction involved in cell survival, is discussed in relation to schizophrenia.
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PMID:[Schizophrenia, neurodevelopment and glycogen synthase kinase-3]. 1451 71

Dopamine (DA) is a neurotransmitter involved in the control of locomotion, emotion, cognition, and reward. Administration of lithium salts is known to inhibit DA-associated behaviors in experimental animal models through unknown mechanisms. Here, we used a pharmacogenetic approach to show that DA can exert its behavioral effects by acting on a lithium-sensitive signaling cascade involving Akt/PKB and glycogen synthase kinase 3 (GSK-3). In the mouse striatum, increased DA neurotransmission arising either from administration of amphetamine or from the lack of the DA transporter results in inactivation of Akt and concomitant activation of GSK-3alpha and GSK-3beta. These biochemical changes are not affected by activation of the cAMP pathway but are effectively reversed either by inhibition of DA synthesis, D2 receptor blockade, or administration of lithium salts. Furthermore, pharmacological or genetic inhibition of GSK-3 significantly reduces DA-dependent locomotor behaviors. These data support the involvement of GSK-3 as an important mediator of DA and lithium action in vivo and suggest that modulation of the Akt/GSK-3 pathway might be relevant to DA-related disorders, such as attention deficit hyperactivity disorder and schizophrenia.
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PMID:Lithium antagonizes dopamine-dependent behaviors mediated by an AKT/glycogen synthase kinase 3 signaling cascade. 1504 94

Abnormal phosphorylation of tau is a feature of Alzheimer's disease (AD), which develops prematurely in Down syndrome (DS) patients. Cognitive impairment is also recognized as a clinical characteristic of schizophrenia, which does not appear to be associated with tau-aggregate formation. Several kinases can phosphorylate tau in cell-free assays. Here we show increased activity of mitogen-activated protein kinases (MAPKs) (including ERK1/2, SAPKs and p38) in post mortem AD and DS brains, which could not be accounted for by expression changes. In contrast, glycogen synthase kinase-3 activity (GSK-3 alpha beta) was reduced significantly. Examination of tau in AD and DS using antibodies selective for MAPK phosphorylation sites showed increased immunoreactivity. In addition, phosphorylation of S(199), reportedly a selective substrate for cyclin-dependent kinase-5 (cdk5) or GSK-3 alpha beta was only observed in AD samples, which showed a concomitant increase in the expression of p25, the enhancing cofactor for cdk5 activity. However, in schizophrenia brain, MAPK-phosphorylated tau was unchanged compared to matched controls, despite similar expression levels to those in AD. The activities of the MAPKs and GSK-3 alpha beta were also unchanged. These data demonstrate that in AD and DS, enhanced MAPK activity, which has an established role in regulating neuronal plasticity and survival, can account for irregular tau phosphorylation, and that the molecular processes involved in these neurodegenerative disorders are distinct from those in schizophrenia. These data also question the significance of GSK-3 alpha beta, as much previous work carried out in vitro has placed this kinase as a favoured candidate for involvement in the pathological phosphorylation of tau.
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PMID:Increased MAP kinase activity in Alzheimer's and Down syndrome but not in schizophrenia human brain. 1514 5

Schizophrenia is associated with abnormalities in glucose metabolism that may lead to insulin resistance and a 3 fold higher incidence of type II diabetes mellitus. The goal of the present studies was to assess the role of insulin-dependent Akt signaling in schizophrenia and in animal and cellular models of insulin resistance. Our studies revealed a functional decrease in insulin receptor (IR)-mediated signal transduction in the dorsolateral prefrontal cortex (BA46) of medicated schizophrenics relative to control patients using post-mortem brain material. We found approximately 50% decreases in the content and autophosphorylation levels of IRbeta and approximately 76-78% decreases in Akt content and activity (pSer(473)-Akt). The inhibition of IRbeta signaling was accompanied by an elevated content of glycogen synthase kinase (GSK)-3 alpha and GSK-3beta without significant changes in phospho-Ser(21/9) GSK-3 alpha/beta levels. A cellular model of insulin resistance was induced by IRbeta knockdown (siRNA). As in schizophrenia, the IRbeta knockdown cells demonstrated a reduction in the Akt content and activity. Total GSK-3 alpha/beta content remained unaltered, but phospho-Ser(21/9) GSK-3 alpha/beta levels were reduced indicating a net increase in the overall enzyme activity similar to that in schizophrenia. Insulin resistance phenotype was induced in mice by treatment with antipsychotic drug, clozapine. Behavioral testing showed decreases in startle response magnitude in animals treated with clozapine for 68 days. The treatment resulted in a functional inhibition of IRbeta but the Akt activation status remained unaltered. Changes in GSK-3 alpha/beta were consistent with a net decrease in the enzyme activity, as opposed to that in schizophrenia. The results suggest that alterations in insulin-dependent Akt signaling in schizophrenia are similar to those observed in our cellular but not animal models of insulin resistance. In animal model, clozapine ameliorates IRbeta deficits at the GSK-3 alpha/beta level, which may justify its role in treatment of schizophrenia. Our studies suggest that aberrant IR function may be important in the pathophysiology of schizophrenia.
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PMID:Insulin receptor deficits in schizophrenia and in cellular and animal models of insulin receptor dysfunction. 1658 Dec 31

Recent investigations suggest that the AKT/glycogen synthase kinase 3 (GSK3) signaling cascade may be associated with the pathophysiology of schizophrenia and methamphetamine (METH) use disorder. One important molecule related to this cascade is beta-arrestin 2 (ARRB2). We therefore conducted a genetic case-control association analysis of the gene for ARRB2 with schizophrenia and METH use disorder in a Japanese population (547 people with schizophrenia, 177 with METH use disorder and 546 controls). A possible association of 'tag single nucleotide polymorphisms (SNPs)' was found in METH use disorder (rs1045280: P(genotype) = 0.0118, P(allele) = 0.00351; rs2036657: P(allele) = 0.0431; rs4790694: P(genotype) = 0.0167, P(allele) = 0.0202), but no association was found with schizophrenia. We also evaluated the gene-gene interactions among ARRB2, AKT1, and GSK3B, which we previously reported for each of these diseases. However, no interaction was seen in our samples. This is the first association analysis of ARRB2, and our results indicate that ARRB2 may play a role in the pathophysiology of METH use disorder.
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PMID:Possible association of beta-arrestin 2 gene with methamphetamine use disorder, but not schizophrenia. 1723 43

Converging evidence suggests that the regulation of glycogen synthase kinase 3 (GSK-3) might be important in schizophrenia. Atypical and typical antipsychotic drugs alter GSK-3 activity, as do drugs that induce psychosis. GSK-3 regulatory pathways are altered in schizophrenia, and many of the genes associated with schizophrenia directly or indirectly regulate GSK-3 activity. We propose a variant on the neurodevelopment and dopamine hypotheses of schizophrenia, whereby (i) an early dysfunction in GSK-3 regulation has neurodevelopmental consequences that predispose to disease and (ii) dysfunction in GSK-3 regulation in the adult brain alters dopamine signalling events, causing psychotic symptoms and cognitive dysfunction. If, as we suggest, GSK-3 regulation is crucial to schizophrenia, the Wnt and insulin signalling pathways become targets for therapy.
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PMID:Schizophrenia as a GSK-3 dysregulation disorder. 1732 75

Besides their role in desensitization, beta-arrestin 1 and 2 promote the formation of signaling complexes allowing G protein-coupled receptors (GPCR) to signal independently from G proteins. Here we show that lithium, a pharmacological agent used for the management of psychiatric disorders such as bipolar disorder, schizophrenia, and depression, regulates Akt/glycogen synthase kinase 3 (GSK3) signaling and related behaviors in mice by disrupting a signaling complex composed of Akt, beta-arrestin 2, and protein phosphatase 2A. When administered to beta-arrestin 2 knockout mice, lithium fails to affect Akt/GSK3 signaling and induce behavioral changes associated with GSK3 inhibition as it does in normal animals. These results point toward a pharmacological approach to modulating GPCR function that affects the formation of beta-arrestin-mediated signaling complexes.
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PMID:A beta-arrestin 2 signaling complex mediates lithium action on behavior. 1819 Dec 26

Heterotrimeric guanine nucleotide-binding protein (G protein)-coupled receptors (GPCRs) are the largest group of structurally related proteins encoded by the human genome. As signal effectors and allosteric regulators, GPCRs dynamically recruit not only specific heterotrimeric G proteins but also the cytosolic scaffold proteins, beta-arrestin 1 and 2, which were originally thought only to serve as negative regulators of GPCR signaling. Although about half of currently available therapeutics target GPCR function, usually at the ligand-binding, orthosteric site, evidence suggests that beta-arrestins may be therapeutic targets themselves. Indeed, a hitherto undiscovered action of various antipsychotics is to inhibit the ability of the dopamine D2 receptor to engage beta-arrestin 2 and activate glycogen synthase kinase 3, which may be a target for developing therapeutics for schizophrenia. Also, certain beta-antagonists (blockers) used to treat heart failure, such as carvedilol, have the added effect of promoting activation of extracellular signal-regulated kinase through beta-arrestin. It seems likely that the structure of beta-arrestins allows them to detect different types and conformational states of GPCRs and to respond in functionally distinct fashions by using separate cohorts of signaling proteins, thus generating additional possibilities for therapeutic intervention.
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PMID:Arrestin times for developing antipsychotics and beta-blockers. 1936 91


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