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)

To search for possible alterations in second messenger systems in the temporal cortex (Brodmann's area 22) of patients with schizophrenia, we measured the binding activities of [3H]adenosine 3',5'-cyclic monophosphate ([3H]cAMP) and [3H]4 beta-phorbol 12,13-dibutyrate ([3H]PDBu) which can label the regulatory subunit of cAMP-dependent protein kinase (protein kinase A) and the regulatory domain of Ca2+/phospholipid-dependent protein kinase (protein kinase C), respectively. We also immunoquantified the variable subunits of guanine nucleotide binding proteins (G-proteins), using specific polyclonal antisera against Gs alpha, Gi alpha and Go alpha. Brains were obtained at autopsy on 10 patients with schizophrenia and 10 age-matched control subjects. Representative Scatchard plots for specific [3H]cAMP bindings to the soluble fraction consisted of a single component with high affinity (Kd = 2.36 nM, Bmax = 737 fmol/mg protein). Among the tested adenyl and guanyl nucleotides, or neuroleptics, cAMP alone potently inhibited the binding (Ki = 4.95 nM). The binding sites for [3H]cAMP were discretely localized, and were in the order of: cerebral cortex = hypothalamus = amygdala > hippocampus = neostriatum = thalamus = nucleus accumbens > globus pallidus = cerebellum. Specific [3H]cAMP bindings to the soluble fractions were about 30% greater in the left temporal cortices of schizophrenic patients, as compared to findings in the right side of the patients and the left side of the control subjects, no control brain showed this asymmetry. The specific [3H]PDBu binding in schizophrenic and control groups did not change.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Increase in [3H]cAMP binding sites and decrease in Gi alpha and Go alpha immunoreactivities in left temporal cortices from patients with schizophrenia. 839 55

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

Abnormalities in the cAMP-dependent protein kinase (PKA), a central component of cAMP signaling, have been reported in several psychiatric disorders. Previous studies showed cAMP signaling alterations in schizophrenic patients but less is known about the involvement of PKA in such disorder. Therefore, we investigated the PKA subunits by Western blot analysis in platelets from 12 patients with schizophrenia and 13 controls. The results showed that the immunolabeling of the PKA regulatory subunits type I (RI) and type II (RII) was significantly reduced in patients compared with controls whereas no differences were observed in the catalytic (C) subunit of the enzyme. These preliminary data suggest that schizophrenic patients have altered PKA levels, thus supporting that dysfunctions in the components of cAMP signaling may contribute to the pathophysiology of schizophrenia.
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PMID:Abnormal levels of cAMP-dependent protein kinase regulatory subunits in platelets from schizophrenic patients. 1088 48

Because amphetamine releases two to three times more dopamine in schizophrenia patients than in control subjects, and because calcium-calmodulin-dependent protein kinase II has a key role in the enhanced action of amphetamine-induced dopamine release in rats, the synaptic content of calcium-calmodulin-dependent protein kinase IIbeta mRNA was measured (by quantitative competitive RT-PCR; reverse transcriptase-polymerase chain reaction) in seven frontal cerebral cortices of post-mortem brains from patients who had schizophrenia and in seven control tissues. The results indicate that the mRNA of this kinase is elevated in the schizophrenia frontal cortex.
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PMID:Schizophrenia: elevated mRNA for calcium-calmodulin-dependent protein kinase IIbeta in frontal cortex. 1104 61

The three Nobel laureates Arvid Carlsson, Paul Greengard and Eric Kandel have made pioneering discoveries concerning slow synaptic transmission between neurons. As common theme, for which the Nobel Prize in Physiology or Medicine for 2000 is given, the Nobel Assembly chose 'signal transduction in the nervous system'. The work of Carlsson led to the discovery of dopamine as transmitter in the brain and opened the way for the development of the levodopa therapy of patients suffering from Parkinson's disease. His later work concentrated on the dopamine hypothesis of schizophrenia and the rationale for the mechanism of action of antipsychotics. Greengard pioneered the field of receptor-mediated phosphorylation and dephosphorylation of brain proteins. He was the first to describe the cyclic-AMP-dependent protein kinase in the brain and the activation of this kinase following dopamine receptor activation. A substrate enriched in cells that bear dopamine receptors is 'dopamine- and cyclic-AMP-regulated phosphoprotein' (DARPP-32). Phosphorylation by the cyclic-AMP-dependent kinase influences its protein phosphatase inhibiting capacity and, as such, DARPP-32 is an important 'feed-forward activator' in the dopamine signal transduction cascade. Kandel received the prize for his contributions to our understanding of the neural substrate of learning and memory. Most of his work was carried out in the sea slug Aplysia in which he was able to relate three psychologically defined forms of learning--habituation, sensitisation, and classical conditioning--to subcellular processes and intercellular signalling. Kandel is known all over the world for his eminent textbook Principles of Neural Science which inspired generations of young neuroscientists. It seems that it is not so much the signal transduction that joins these laureates but their outstanding conceptual approach to, in fact, three different themes of the neurosciences during the second part of the last century.
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PMID:[Nobel prize in physiology of medicine for year 2000 for research of signal transduction in the nervous system]. 1110 53

Endogenous adenosine in nervous tissue, a central link between energy metabolism and neuronal activity, varies according to behavioral state and (patho)physiological conditions, it may be the major sleep propensity substance. The functional consequences of activation of the four known adenosine receptors, A1, A2A, A2B and A3, are considered here. The mechanisms and electrophysiological actions, mainly those of the A1-receptor, have been extensively studied using in vitro brain-slice preparations. A1-receptor activation inhibits many neurons postsynaptically by inducing or modulating ionic currents and presynaptically by reducing transmitter release. A1-receptors are almost ubiquitous in the brain and affect various K+ (Ileak, IAHP), mixed cationic (Ih), or Ca2+ currents, through activation of Gi/o-proteins (coupled to ion channels, adenylyl cyclase or phospholipases). A2A-receptors are much more localized, their functional role in the striatum is only just emerging. A2B- and A3-receptors may be affected in pathophysiological events, their function is not yet clear. The cAMP-PKA signal cascade plays a central role in the regulation of both neural activity and energy metabolism. Under conditions of increased demand and decreased availability of energy (such as hypoxia, hypoglycemia and/or excessive neuronal activity), adenosine provides a powerful protective feedback mechanism. Interaction with adenosine metabolism is a promising target for therapeutic intervention in neurological and psychiatric diseases such as epilepsy, sleep, movement (parkinsonism or Huntington's disease) or psychiatric disorders (Alzheimer's disease, depression, schizophrenia or addiction).
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PMID:Functions of neuronal adenosine receptors. 1111 31

We have previously demonstrated elevation of the extracellular signal-regulated kinase (ERK) pathway in the cerebellum from patients with schizophrenia, an illness that may involve dysfunction of the N-methyl-D-aspartate (NMDA) receptor. Since the NMDA antagonist, phencyclidine (PCP), produces schizophrenic-like symptoms in humans, and abnormal behavior in animals, we examined the effects of chronic PCP administration in time- and dose-dependent manner on ERK and two other members of mitogen-activated protein kinase family, c-Jun N-terminal protein kinase (JNK) and p38, in rat brain. Osmotic pumps for PCP (18 mg/kg/day) and saline (controls) were implanted subcutaneously in rats for three, 10, and 20 days. Using Western blot analysis, we found no change at three days, but a significant increase in the phosphorylation of ERK1, ERK2 and MEK in the cerebellum at 10- and 20-days of continuous PCP infusion. For the experiments involving various doses of PCP, rats were infused with PCP at concentrations of 2.5, 10, 18, or 25 mg/kg/day, or saline for 10 days. We observed a dose-dependent elevation in the phosphorylation of ERK1 and ERK2 only in the cerebellum but not in brainstem, frontal cortex or hippocampus. The activities of JNK and p38 were unchanged in all investigated brain regions including cerebellum. These results demonstrate that chronic infusion of PCP in rats produces a differential and brain region-specific activation of MAP kinases, suggesting a role for the ERK signaling pathway in PCP abuse and perhaps in schizophrenia.
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PMID:Differential and region-specific activation of mitogen-activated protein kinases following chronic administration of phencyclidine in rat brain. 1116 17

Previous studies have reported that the cAMP-dependent protein kinase and one of its substrates, namely Rap1, are altered in patients with affective disorders. Abnormalities in the cAMP-dependent protein kinase have also been reported in platelets of patients with obsessive compulsive disorder and schizophrenia. However, it remains to be determined whether abnormalities in Rap1 are specifically related to affective disorders or may also be present in schizophrenia and obsessive compulsive disorder. Thus, we investigated Rap1 in platelets from 12 drug-free patients with obsessive compulsive disorder, ten drug-free patients with schizophrenia, and 20 healthy subjects. While no difference was observed in the levels of Rap1 between groups, the phosphorylation state of Rap1 was significantly lower in patients with obsessive compulsive disorder than in schizophrenic patients and controls. These data further support the idea that abnormalities of cAMP signalling pathway could be associated, albeit in a somewhat different way, with several psychiatric disorders.
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PMID:The cAMP-dependent protein kinase substrate Rap1 in platelets from patients with obsessive compulsive disorder or schizophrenia. 1141 82

In neurons, pituitary adenyl cyclase activating peptide (PACAP) stimulates signaling cascades, involving cAMP and calcium. PACAP appears to play a role in up-regulation of tyrosine hydroxylase and dopamine beta-hydroxylase via protein kinase C and/or protein kinase A. Furthermore, the PACAP gene (ADCYAP1) is located in chromosome 18p11, where linkage of bipolar disorders and schizophrenia has been reported. In this study, we scanned the coding region of the PACAP gene for mutations in 24 Japanese patients with schizophrenia and 24 Japanese patients with bipolar disorders. No variant in the coding region was found. One polymorphism, INV3-37A/T, in the third intron was detected. Case-control comparisons revealed no significant association between this polymorphism and schizophrenia or bipolar disorders. This study did not provide evidence for the contribution of the PACAP gene to the etiology of schizophrenia or bipolar disorders in the Japanese population.
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PMID:Association analysis of the pituitary adenyl cyclase activating peptide gene (PACAP) on chromosome 18p11 with schizophrenia and bipolar disorders. 1151 50

Glycogen synthase kinase-3 (GSK-3) (EC 2.7.1.37) is a protein kinase highly abundant in brain and involved in signal transduction cascades of multiple cellular processes, particularly neurodevelopment. Two forms of the enzyme, GSK-3alpha and -3beta have been previously identified. We have previously reported reduced GSK-3beta protein levels in postmortem frontal cortex of schizophrenic patients. In an attempt to explore whether reduction of GSK-3beta levels is brain region specific we examined it in occipital cortex. In order to find out if the reduction in frontal cortex is reflected in altered activity we measured GSK-3 enzymatic activity in this brain region. Western-blot analysis of GSK-3beta was carried out in postmortem occipital cortex of 15 schizophrenic, 15 bipolar, and 15 unipolar patients, and 15 normal controls. GSK-3 activity was measured by quantitating the phosphorylation of the specific substrate phospho-CREB in the frontal cortex specimens. GSK-3beta levels in occipital cortex did not differ between the four diagnostic groups. GSK-3 activity in the frontal cortex of schizophrenic patients was 45% lower than that of normal controls (0.196+/-0.082 and 0.357+/-0.084 pmol/mg proteinxmin, respectively; Kruskal-Wallis analysis: chi-square=8.27, df=3, p=0.04). The other two diagnostic groups showed no difference from the control group. Our results are consistent with the notion that schizophrenia involves neurodevelopmental pathology.
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PMID:Low GSK-3 activity in frontal cortex of schizophrenic patients. 1159 96


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