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)

Phenylalanine hydroxylase (PAH), which catalyzes the conversion of phenylalanine to tyrosine, shares physical, structural and catalytic properties with tyrosine hydroxylase (TH) and tryptophan hydroxylase (TPH) that catalyze the rate-limiting steps in the biosynthesis of the neurotransmitters dopamine, noradrenaline, and serotonin. Because these neurotransmitter systems have all been implicated in the pathophysiology of schizophrenia, the aromatic amino acid hydroxylases are among the likely candidates for genes associated with schizophrenia. A mutation in the functionally critical tetrahydrobiopterin cofactor binding domain of the PAH gene had been identified in African-American patients with the diagnosis of schizophrenia, and biochemical analyses suggested that this mutation has physiological consequences related to amine neurotransmitter function. DNA sequencing of the highly conserved cofactor binding domain of the PAH, TH, and TPH genes in African-American subjects with schizophrenia and unrelated, never mentally ill subjects from the NIMH Schizophrenia Genetics Initiative, was undertaken to assess the concordance of mutant genotype with psychiatric phenotype. The K274E mutation was observed in the PAH gene cofactor binding domain, and several polymorphisms were identified in adjacent intronic regions of the PAH, TH, and TPH genes. All of the genetic variants observed were represented in the schizophrenia group and in the never mentally ill group. Genetic evaluation of the family members of subjects with the PAH K274E mutation showed that all individuals with the K274E mutation also exhibited the PAH L321L polymorphism in the catalytic domain of the PAH enzyme.
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PMID:Aromatic amino acid hydroxylase genes and schizophrenia. 1221 Feb 76

It has recently been reported that the human striatum, especially its ventral part, the nucleus accumbens, contains numerous neurons immunoreactive for aromatic L-amino acid decarboxylase (AADC; the second-step monoamine synthesizing enzyme), but not for tyrosine hydroxylase (TH; the first-step catecholamine synthesizing enzyme) or tryptophan hydroxylase (TPH; the first-step serotonin synthesizing enzyme). These AADC (+)/TH(-)/TPH(-) neurons are named D-neurons. AADC is also the rate-limiting synthesizing enzyme of phenylethylamine (PEA). Although the functions of striatal D-neurons are yet unclear, their functions were discussed in the present review based on recent findings in the literature. D-neurons may participate in the manifestation of efficacy of pharmacotherapy for Parkinson's disease by uptaking monoamine precursors, including L-dopa or droxidopa (L-threo-DOPS), and by converting them to dopamine (DA) or noradrenaline (NA), respectively. Because the nucleus accumbens is one of the brain regions involved in the pathogenesis of schizophrenia and drug dependence, D-neurons might be related to the etiology of these mental disorders. It has also been suggested that striatal D-neurons are the pluripotential cells that have compensating functions against aging or degeneration. Further studies should be conducted to elucidate the functions of this unique cell group in the human striatum.
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PMID:[Human striatal D-neurons and their significance]. 1237 66

Knowledge of candidate gene polymorphisms in a population is useful for a variety of gene-disease association studies, particularly for some complex traits. A number of candidate genes, a majority of them from the monoaminergic pathway in the brain, have been very popular in association studies with schizophrenia, a neuropsychiatric disorder. In this study diallelic/multiallelic polymorphisms in some dopaminergic, serotonergic and membrane-phospholipid-related genes have been evaluated in a control population recruited from North India. Association, if any, of these allelic variants with schizophrenia has been tested using a case-control approach. The case data have been taken from our published family-based association studies in schizophrenia. Of the eight genes tested in this study, association with schizophrenia was observed for only two gene polymorphisms, one in the promoter region of the serotonin 2A receptor gene and the other in the tryptophan hydroxylase gene. One new allele for the dopamine transporter gene (with eight repeats, 570-bp size), not reported in any population so far, has been identified in one individual in our sample. The data generated in this study, besides providing a normative background for various disease association studies, are a significant contribution to the population-specific genome database, a currently growing requirement.
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PMID:Candidate gene polymorphisms among North Indians and their association with schizophrenia in a case-control study. 1253 38

It has recently been reported that the human corpus striatum, especially its ventral part, named as the nucleus accumbens, contains numerous non-monoaminergic aromatic L-amino acid decarboxylase (AADC; the second-step monoamine synthesizing enzyme) neurons (D-neurons). D-neurons are the neurons immunoreactive for AADC but not immunoreactive for dopamine or serotonin. They lack the first-step monoamine synthesizing enzymes, tyrosine hydroxylase and tryptophan hydroxylase. AADC is also the rate-limiting enzyme of phenylethylamine (PEA) synthesis. D-neurons might participate in the manifestation of efficacy of pharmacotherapy for Parkinson's disease by uptaking monoamine precursors including L-dopa or droxidopa (L-threo-DOPS) and by converting them to dopamine or noradrenaline, respectively. As the nucleus accumbens is one of the brain regions that are involved in the pathogenesis of schizophrenia and drug dependence, D-neurons might be related to the etiology of these mental disorders. It has also been suggested that striatal D-neurons are the pluripotential cells that have compensating functions against aging or degeneration.
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PMID:[Localization of non-monoaminergic aromatic L-amino acid decarboxylase neurons (D-neurons) in the human striatum and their functional significance]. 1255 14

The human striatum, especially its ventral part, the nucleus accumbens, contains numerous neurons immunoreactive for aromatic L-amino acid decarboxylase (AADC, the second-step monoamine synthesizing enzyme, =DDC: dopa decarboxylase), but not for tyrosine hydroxylase (TH, the first-step catecholamine synthesizing enzyme) or tryptophan hydroxylase (TPH, the first-step serotonin synthesizing enzyme) (Neurosci Lett 232 (1997) 111-114). These AADC (+)/TH (-)/TPH (-) neurons are named as D-neurons (Jaeger CB, Ruggiero DA, Albert VR, Joh TH, Reis DJ. Immunocytochemical localization of aromatic-L-amino acid decarboxylase. In: Bjorklund A, Hokfelt T, editors. Classical transmission in the CNS, Part I, Handbook of chemical neuroanatomy, vol. 2. Amsterdam: Elsevier, 1984. pp. 387-418). The nucleus accumbens is one of the brain regions that is involved in the pathogenesis of schizophrenia. We examined the distribution of striatal D-neurons using AADC immunohistochemistry and postmortem brains obtained by legal and pathological autopsies (nine controls (27-75 years old) and nine schizophrenics (32-78 years old), postmortem interval to fixation (PMI): 2-30 h). Because the number of AADC-positive neurons per section had a tendency to reduce in the case with longer PMI, we analyzed specimens of five controls (27-64 years old) and six schizophrenics (51-78 years old) in which the PMI was less than 8 h. The number of AADC-positive neurons was reduced in the striatum of schizophrenics compared to that of controls. The reduction was significant in the nucleus accumbens (P<0.05, t-test). D-Neurons might be involved in the pathogenesis of schizophrenia. Further studies using sex-, age- and PMI-matched controls are essential.
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PMID:Number of striatal D-neurons is reduced in autopsy brains of schizophrenics. 1293 95

We explored the relationship between the tryptophan hydroxylase gene polymorphism and susceptibility to childhood-onset schizophrenia in a Japanese sample. Subjects were 51 Japanese patients who met DSM-IV criteria for schizophrenia before age 16 and 148 Japanese healthy controls. DNA was extracted from whole blood and genotyping was performed by PCR-RFLP using Nhe I. The frequency of the A allele was relatively higher in patients with childhood-onset schizophrenia than in controls (odds ratio, OR = 1.47, 95% CI = 0.97-2.37, P = 0.097). There was a nearly doubling of the risk for childhood-onset schizophrenia associated with the AA genotype compared to other genotype groups; OR = 1.97, 95% CI = 0.91-4.22, P = 0.058.
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PMID:Childhood-onset schizophrenia and tryptophan hydroxylase gene polymorphism. 1579 20

Recently, an interaction between season of birth and the expression of candidate genes has been suggested. Season of birth variations in tryptophan hydroxylase (TPH), the serotonin transporter (5-HTTLPR) and the dopamine D4 receptor (DRD4) gene polymorphisms are different for affective disorders and schizophrenia. The DRD4 gene has been postulated as a candidate gene for attention-deficit-hyperactivity disorder (ADHD), equivalent to hyperkinetic disorder (HD). The seven-repeat long variant of this gene (DRD4*7) in comparison to the short repeat variants of the DRD4 gene polymorphism, has been found to be associated with ADHD. A seasonal pattern of birth has also been proposed for different subtypes of ADHD. Therefore, in a subgroup of children with HD and conduct disorder (CD) and in healthy controls, we investigated a possible association between the DRD4*7 allele and HD + CD in association with the season of birth. Supporting this hypothesis, we found an interaction between the seasons of birth and the expression of the DRD4 candidate gene in children with HD + CD as well as in controls, which differ significantly from each other. Depending on the season of birth, children carrying the DRD4*7R allele showed different relative risks for developing HD + CD.
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PMID:Gene-environment interaction in hyperkinetic conduct disorder (HD + CD) as indicated by season of birth variations in dopamine receptor (DRD4) gene polymorphism. 1528 35

There are many risk factors associated with vulnerability to suicidal behaviour, and the results of family studies, twin studies and adoption studies suggest that they include a genetic predisposition. Moreover, this gentic susceptibility may be specific and independent of the genetic susceptibility to psychiatric disorders associated with suicidal behaviour (e.g., bipolar disorders, schizophrenia, alcoholism). Several groups have carried out association studies using a "candidate gene strategy", with the goal of identifying the genes involved in susceptibility to suicidal behavior. There is compelling evidence from research in biological psychiatry that abnormalities in the functioning of the central serotonergic system are involved in the pathogenesis of suicidal behavior, and the results of association studies suggest that the gene coding for tryptophan hydroxylase, which is the serotonin synthesis enzyme, and the serotonin transporter gene are involved in susceptibility to suicidal behavior. Furthermore, these genes may influence the suicidal phenotype through different gene-gene interactions and gene-early environment interactions. Current studies aim to identify either the precise phenotypes associated with genes for vulnerability to suicidal behaviour or the intermediate phenotypes (e.g., impulsivity, anger dyscontrol) associated with these genes.
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PMID:[Implication of genes of the serotonergic system on vulnerability to suicidal behavior]. 1553 46

Increasing focus is being given to identify possible combinations of genes related to specific clinical phenotypes. In our sample of 814 patients comprising 114 with schizophrenia, 416 with bipolar affective disorder and 284 with unipolar affective disorder, we studied interactions between the tryptophan hydroxylase (TPH), the serotonin transporter (5-HTTLPR), and the dopamine receptor (DRD4) genes in relation to five major psychiatric symptomatology scores. There was significant interaction between the TPH and the 5-HTTLPR genes. With an increasing number of short (s) alleles of 5-HTTLPR, the scores for delusions, disorganization and negative symptoms were significantly decreasing among subjects having the TPH genotype AA but increasing among subjects having the TPH genotype AC, yielding the highest scores for the combinations AA x ll and AC x ss. Since high scores on just delusions, disorganization and negative symptoms but low scores on excitement and depression were found among subjects with schizophrenia, we conducted comparisons among the three diagnostic categories and controls as regards the combined TPH x 5-HTTLPR genotype distribution. Schizophrenia subjects had a significantly different distribution of the genotype combination for TPH x 5-HTTLPR as compared to 241 controls or to unipolar or bipolar subjects, and had significantly higher frequencies of AA x ll and of AC x ss. Thus, an interaction between TPH and 5-HTTLPR genes constitutes susceptibility to schizophrenia, thereby yielding apparent relationships between the major psychiatric symptomatology scores and genotype combinations in samples that are obtained by pooling schizophrenia with other diagnostic categories.
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PMID:Interaction between the tryptophan hydroxylase gene and the serotonin transporter gene in schizophrenia but not in bipolar or unipolar affective disorders. 1562 7

The basis of suicidal behavior (SB) is complex and multifactorial. Numerous risk factors have been identified. Epidemiological genetics studies (family studies, twin studies, adoption studies) suggest that there is a genetic basis to SB and that this genetic basis is specific and independent from the genetic factors implicated in predisposition to psychiatric disorders associated with SB (bipolar disorder, schizophrenia, alcoholism). Recently, new molecular genetics tools have been designed to identify the genetic factors that predispose certain individuals to disorders of complex etiology. Biological psychiatry studies have suggested that the physiopathology of SB involves dysfunctioning of the serotonin system. The first genetic association studies tested candidate genes encoding proteins involved in serotonin metabolism. The results of these studies suggest that the gene coding for the limiting enzyme in the synthesis of serotonin, tryptophan hydroxylase (TPH), and the gene encoding the serotonin transporter are involved in predisposition to SB. Furthermore, it is likely that these genes interact with each other and with environmental factors (early) and that they have different phenotypic consequences. One of the main aims of studies currently underway is to identify the precise phenotypes associated with genes that predispose to SB or intermediate phenotypes (impulsivity, inability to control anger, etc.).
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PMID:Suicidal behavior: relationship between phenotype and serotonergic genotype. 1564 80


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