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)

Changes during gestation have been shown to induce brain maldevelopment associated with changes in neurotrophins as nerve growth factor (NGF), brain derived neurotrophic factor (BDNF) and neuropsychiatric disorders in humans. A rat model of altered prenatal brain development resembling the onset of schizophrenia has been obtained by administering in fetus methylazoxymethanol (MAM) at gestational day 12 which impairs the growth of limbic pathways between the entorhinal cortex and the hippocampus. Using the MAM model we studied in young rats the brain levels of both NGF/BDNF and their main receptors, TrkA/TrkB, to investigate whether or not changes in neurotrophins could affect the presence of brain BrdU positive cells. We found increased NGF and BDNF protein levels, associated with elevated TrkA and TrkB expression, in the hippocampus, entorhinal cortex, olfactory lobes and subventricular zone (SVZ), brain areas playing a key role in the production and migration of new dividing cells. We also found higher levels of BrdU positive cells in the SVZ and hippocampus but not a significant potentiation in the entorhinal cortex and olfactory lobes. All together the findings indicate that prenatal MAM exposure in young rats may elicit both neurotrophins' elevation and cell proliferation in limbic brain areas.
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PMID:Exposure in fetus of methylazoxymethanol in the rat alters brain neurotrophins' levels and brain cells' proliferation. 1714 8

Schizophrenia has complicated pathogeneses that is not able to be explained by any one supposed hypothesis, although alterations in dopamine neurotransmission have been widely accepted as the most plausible mechanism. A transition from traditional typical antipsychotics to contemporary atypical antipsychotics which have significantly improved tolerability and enhanced specific efficacy has been also made based on this dopamine hypothesis. Cysteamine is a natural product of mammalian cells and found to be useful pharmacological alternative. A number of evidence suggests that cysteamine may control directly or indirectly dopamine neurotransmission in nucleus accumbens and other schizophrenia-related brain regions. Systemic cysteamine injection mitigated the apomorphine-induced stereotypy as well as decreasing motor stimulant effects of amphetamine, which favor cysteamine over animal models of schizophrenia relative to hyperactivity of dopaminergic pathway. In addition, cysteamine showed neuroprotective effects by way of enhancing central and serum brain derived neurotrophic factor (BDNF) that has been proved to be altered in patients with schizophrenia. Antipsychotic drugs exert their effect partly by modifying the synthesis and distribution of BDNF in selected brain region. Cysteamine was effective to reverse a disruption in prepulse inhibition, an endophenotypic marker of schizophrenia. Cysteamine can also stimulate the release of cortical dopamine, which is interesting in that decreased dopaminergic function in the cerebral cortex has been repeatedly demonstrated in patients with schizophrenia and associated with prominent depressive and negative symptoms. Cysteamine can also increase an important antioxidant, glutathione. Finally, cysteamine treatment was found to decrease weight gain, cataleptic behavior, and serum prolactin levels, which are the major beneficial properties of contemporary atypical antipsychotics. Hence, further explorations of therapeutic implication of cysteamine for schizophrenia in preclinical studies should be warranted in future.
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PMID:Therapeutic possibilities of cysteamine in the treatment of schizophrenia. 1716 69

A genome-wide scan in 60 bipolar affective disorder (BPAD) affected sib-pairs (ASPs) identified linkage on chromosome 21 at 21q22 (D21S1446, NPL = 1.42, P = 0.08), a BPAD susceptibility locus supported by multiple studies. Although this linkage only approaches significance, the peak marker is located 12 Kb upstream of S100B, a neurotrophic factor implicated in the pathology of psychiatric disorders, including BPAD and schizophrenia. We hypothesized that the linkage signal at 21q22 may result from pathogenic disease variants within S100B and performed an association analysis of this gene in a collection of 125 BPAD type I trios. S100B single nucleotide polymorphisms (SNPs) rs2839350 (P = 0.022) and rs3788266 (P = 0.031) were significantly associated with BPAD. Since variants within S100B have also been associated with schizophrenia susceptibility, we reanalyzed the data in trios with a history of psychosis, a phenotype in common between the two disorders. SNPs rs2339350 (P = 0.016) and rs3788266 (P = 0.009) were more significantly associated in the psychotic subset. Increased significance was also obtained at the haplotype level. Interestingly, SNP rs3788266 is located within a consensus-binding site for Six-family transcription factors suggesting that this variant may directly affect S100B gene expression. Fine-mapping analyses of 21q22 have previously identified transient receptor potential gene melastatin 2 (TRPM2), which is 2 Mb upstream of S100B, as a possible BPAD susceptibility gene at 21q22. We also performed a family-based association analysis of TRPM2 which did not reveal any evidence for association of this gene with BPAD. Overall, our findings suggest that variants within the S100B gene predispose to a psychotic subtype of BPAD, possibly via alteration of gene expression.
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PMID:Candidate gene analysis of 21q22: support for S100B as a susceptibility gene for bipolar affective disorder with psychosis. 1752 77

The neurotrophic factors play an important role in the maintenance of neurone viability and neuronal communication which are considered to be altered in schizophrenia. Subchronic application of ketamine (Ket) was found to be a useful model in schizophrenia research. To further validate this model the mRNA levels of neurotrophic factors NGF, NT-3, and BDNF and their receptors TrkA, TrkB, and TrkC, respectively, were measured in different brain areas in Ket-pretreated rats subchronically dosed with the atypical antipsychotic drug risperidone (Ris). With the exception of NGF in the frontal cortex, Ket pretreatment did change NGF, NT-3, and BDNF mRNA levels in the frontal cortex, the hippocampus, the striatum, the thalamus/hypothalamus region, and in the cerebellum. These changes correspond with changes at their tyrosine kinase receptors. Ris treatment normalised altered NT-3 levels in the hippocampus and balanced BDNF levels in the same structure. It was concluded that the Ket model might reflect distinct alterations in neurotrophic factor activity as found in schizophrenic patients and, moreover, that Ris treatment rebalances disturbed neurotrophic factor activity.
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PMID:Expression of mRNA of neurotrophic factors and their receptors are significantly altered after subchronic ketamine treatment. 1847 18

False discovery rate (FDR) control has become a standard technique in neuroimaging. Recent work has shown that a finer grained estimate of the FDR is obtained by estimating, at a specific value of the test statistic, the scaled ratio of the null density to the observed density of the test statistic. The method can be extended by allowing an external covariate, also measured on the points where the hypothesis was tested, to modulate estimation of this local FDR. The current work, in addition to demonstrating these methods by re-analyzing results from two previously published investigations of cortical thickness, presents a method to test if the covariate modulation differs significantly from chance. The first study compared schizophrenia patients to healthy controls and the second compared genotypes of the -633 T/A polymorphism of the gene coding the brain derived neurotrophic factor (BDNF) protein in a subset of the subjects from the case/control study. Local FDR estimates increased findings over FDR in both studies. Using p-values from the case/control study to modulate local FDR estimation in the BDNF study further increased findings. The relationship between case/control related and BDNF related cortical thickness variation was found to be highly significant, providing support for this gene's involvement in the etiology of the disease. The increased statistical precision from more accurate models of the distribution of the test statistic demonstrates the potential of these methods for neuroimaging and suggests the possibility to test novel hypothesis.
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PMID:Local and covariate-modulated false discovery rates applied in neuroimaging. 1934 2

Brain-derived neurotrophic factor (BDNF) is a key neurotrophic factor in the brain. It plays an important role in the etiopathogenesis and pharmacotherapy of mental disorders, such as depression or schizophrenia. In recent years, studies have shown that cognitive processes, which are impaired in the course of mental disorders, significantly change BDNF levels in the brain. Administered to rats at a dose of 20 mg/kg (b.d. for 5 weeks), venlafaxine (VEN) increases BDNF levels in the hippocampus and cortex, compared to controls. Administered at a dose of 0.5 mg/kg (b.d. for 5 weeks), olanzapine (OLA) significantly increases BDNF levels in both the cortex and the hippocampus. Similarly, nicotine (NIC) administered at a dose of 0.2 mg/kg (b.d. for 5 weeks) increases BDNF concentrations in both the hippocampus and the cortex. Combined administration of NIC with VEN or OLA does not increase BDNF levels in the hippocampus or the cortex. Based on our study, it can be claimed that BDNF mediates behavioral responses only to drugs used individually and participates in the antidepressant and procognitive effects of the study compounds. BDNF also initiates plastic changes and modulation of synaptic activity in rat brains.
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PMID:Influences of chronic venlafaxine, olanzapine and nicotine on the hippocampal and cortical concentrations of brain-derived neurotrophic factor (BDNF). 2008 Dec 36

GDNF (glial-cell-line derived neurotrophic factor) is a potent neurotrophic factor for dopaminergic neurons. Neuropsychiatric diseases and their treatments are associated with alterations in the levels of both GDNF and its receptor family (GDNF family receptor alpha or GFRA). GFRA1, GFRA2 and GFRA3 are located in chromosomal regions with suggestive linkage to schizophrenia. In this study we analyzed polymorphisms located in all four known GFRA genes and examined association with schizophrenia and clozapine response. We examined SNPs across the genes GFRA1-4 in 219 matched case-control subjects, 85 small nuclear families and 140 schizophrenia patients taking clozapine for 6months. We observed that GFRA3 rs11242417 and GFRA1 rs11197557 variants were significantly associated with schizophrenia after combining results from both schizophrenia samples. Furthermore, we found an overtransmission of the G-C GFRA1 rs7920934-rs730357 haplotype to subjects with schizophrenia and association of A-T-G-G GFRA3 rs10036665-rs10952-rs11242417-rs7726580 with schizophrenia in the case-control sample. On the other hand, GFRA2 variants were not associated with schizophrenia diagnosis but subjects carrying T-G-G rs1128397-rs13250096-rs4567028 haplotype were more likely to respond to clozapine treatment. The statistical significance of results survived permutation testing but not Bonferroni correction. We also found nominally-significant evidence for interactions between GFRA1, 2 and 3 associated with schizophrenia and clozapine response, consistent with the locations of these three genes within linkage regions for schizophrenia.
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PMID:Genetic association of the GDNF alpha-receptor genes with schizophrenia and clozapine response. 2011 71

Stress and stress-induced glucocorticoids have been implicated in many neuropsychiatric disorders including schizophrenia. In addition, the neurotrophin, brain derived neurotrophic factor (BDNF) has been shown to play an important role in stress-mediated changes in neuroplasticity, however, the exact relationship between glucocorticoid and BDNF levels in schizophrenia is unclear. Here, we measured the levels of cortisol (a major glucocorticoid hormone in humans) and BDNF in prefrontal cortex and CSF samples of postmortem schizophrenia subjects. We also assessed the levels of cortisol and BDNF in the frontal cortex and plasma from an animal model (the offspring of prenatally stressed rats), which demonstrates several behavioral and neuroendocrine abnormalities similar to schizophrenia. A significant increase in cortisol levels was found in prefrontal cortex and CSF samples from subjects with schizophrenia. The BDNF levels were significantly lower in prefrontal cortex and CSF samples of subjects with schizophrenia (compared to age-matched controls). Data from animal studies indicated that prenatally stressed offspring have significantly higher plasma and prefrontal cortex cortisol, whereas BDNF levels were significantly lower when compared to control, non-stressed offspring. Moreover, olanzapine treatment for 45 days starting at postnatal day 60 significantly attenuated prenatal stress-induced increase in cortisol levels in prefrontal cortex, but no change in BDNF levels was observed after olanzapine treatment. A significant negative correlation between BDNF and cortisol was observed in both human and animal studies. The above data from human and animal studies suggest that a negative association between stress hormone, cortisol and neuroprotective molecule, BDNF plays an important role in the pathophysiology of schizophrenia.
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PMID:An inverse relationship between cortisol and BDNF levels in schizophrenia: data from human postmortem and animal studies. 2045 11

Elevated blood levels of S100B in schizophrenia have so far been mainly attributed to glial pathology, as S100B is produced by astro- and oligodendroglial cells and is thought to act as a neurotrophic factor with effects on synaptogenesis, dopaminergic and glutamatergic neutrotransmission. However, adipocytes are another important source of S100B since the concentration of S100B in adipose tissue is as high as in nervous tissue. Insulin is downregulating S100B in adipocytes, astrocyte cultures and rat brain. As reviewed in this paper, our recent studies suggest that overweight, visceral obesity, and peripheral/cerebral insulin resistance may be pivotal for at least part of the elevated S100B serum levels in schizophrenia. In the context of this recently identified framework of metabolic disturbances accompanying S100B elevation in schizophrenia, it rather has to be attributed to systemic alterations in glucose metabolism than to be considered a surrogate marker for astrocyte-specific pathologies.
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PMID:S100B Serum Levels in Schizophrenia Are Presumably Related to Visceral Obesity and Insulin Resistance. 2063 94

Phencyclidine (PCP), used to mimic certain aspects of schizophrenia, induces sexually dimorphic, cognitive deficits in rats. In this study, the effects of sub-chronic PCP on expression of brain-derived neurotrophic factor (BDNF), a neurotrophic factor implicated in the pathogenesis of schizophrenia, have been evaluated in male and female rats. Male and female hooded-Lister rats received vehicle or PCP (n=8 per group; 2 mg/kg i.p. twice daily for 7 days) and were tested in the attentional set shifting task prior to being sacrificed (6 weeks post-treatment). Levels of BDNF mRNA were measured in specific brain regions using in situ hybridisation. Male rats were less sensitive to PCP-induced deficits in the extra-dimensional shift stage of the attentional set shifting task compared to female rats. Quantitative analysis of brain regions demonstrated reduced BDNF levels in the medial prefrontal cortex (p<0.05), motor cortex (p<0.01), orbital cortex (p<0.01), olfactory bulb (p<0.05), retrosplenial cortex (p<0.001), frontal cortex (p<0.01), parietal cortex (p<0.01), CA1 (p<0.05) and polymorphic layer of dentate gyrus (p<0.05) of the hippocampus and the central (p<0.01), lateral (p<0.05) and basolateral (p<0.05) regions of the amygdaloid nucleus in female PCP-treated rats compared with controls. In contrast, BDNF was significantly reduced only in the orbital cortex and central amygdaloid region of male rats (p<0.05). Results suggest that blockade of NMDA receptors by sub-chronic PCP administration has a long-lasting down-regulatory effect on BDNF mRNA expression in the female rat brain which may underlie some of the behavioural deficits observed post PCP administration.
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PMID:Phencyclidine (PCP)-induced disruption in cognitive performance is gender-specific and associated with a reduction in brain-derived neurotrophic factor (BDNF) in specific regions of the female rat brain. 2085 70


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