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Query: UMLS:C0036341 (
schizophrenia
)
60,220
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Hemizygous cryptic deletions of the q11 band of human chromosome 22 have been associated with a number of psychiatric and behavioural phenotypes, including
schizophrenia
. Here we report the isolation and characterization of
PRODH
, a human homologue of Drosophila melanogaster sluggish-A (slgA), which encodes proline dehydrogenase responsible for the behavioural phenotype of the slgA mutant.
PRODH
is localized at chromosome 22q11 in a region deleted in some psychiatric patients. We also isolated the mouse homologue of slgA (Prodh), identified a mutation in this gene in the Pro/Re hyperprolinaemic mouse strain and found that these mice have a deficit in sensorimotor gating accompanied by regional neurochemical alterations in the brain. Sensorimotor gating is a neural filtering process that allows attention to be focused on a given stimulus, and is affected in patients with neuropsychiatric disorders. Furthermore, several lines of evidence suggest that proline may serve as a modulator of synaptic transmission in the mammalian brain. Our observations, in conjunction with the chromosomal location of
PRODH
, suggest a potential involvement of this gene in the 22q11-associated psychiatric and behavioural phenotypes.
...
PMID:The gene encoding proline dehydrogenase modulates sensorimotor gating in mice. 1019 98
The increased prevalence of
schizophrenia
among patients with the 22q11 interstitial deletion associated with DiGeorge syndrome has suggested the existence of a susceptibility gene for
schizophrenia
within the DiGeorge syndrome chromosomal region (DGCR) on 22q11. Screening for genomic rearrangements of 23 genes within or at the boundaries of the DGCR in 63 unrelated schizophrenic patients and 68 unaffected controls, using quantitative multiplex PCR of short fluorescent fragments (QMPSF), led us to identify, in a family including two schizophrenic subjects, a heterozygous deletion of the entire
PRODH
gene encoding proline dehydrogenase. This deletion was associated with hyperprolinemia in the schizophrenic patients. In addition, two heterozygous
PRODH
missense mutations (L441P and L289M), detected in 3 of 63 schizophrenic patients but in none among 68 controls, were also associated with increased plasma proline levels. Segregation analysis within the two families harboring respectively the
PRODH
deletion and the L441P mutation showed that the presence of a second
PRODH
nucleotide variation resulted in higher levels of prolinemia. In two unrelated patients suffering from severe type I hyperprolinemia with neurological manifestations, we identified a homozygous L441P
PRODH
mutation, associated with a heterozygous R453C substitution in one patient. These observations demonstrate that type I hyperprolinemia is present in a subset of schizophrenic patients, and suggest that the genetic determinism of type I hyperprolinemia is complex, the severity of hyperprolinemia depending on the nature and number of hits affecting the
PRODH
locus.
...
PMID:PRODH mutations and hyperprolinemia in a subset of schizophrenic patients. 1221 52
Segmental aneusomy, which includes chromosome 22 deletion syndrome (del(22)(q11.2q11.2)), has been associated with DiGeorge syndrome (DGS), velocardiofacial syndrome (VCFS), conotruncal anomaly face (CAF) syndrome, cat-eye syndrome (CES), der(22) syndrome, and duplication of the del(22)(q11.2q11.2) syndrome's typically deleted region. Adults with del(22)(q11.2q11.2) may develop psychiatric illnesses, including
schizophrenia
, schizoaffective disorder, and bipolar disorder, suggesting that lower gene dosage leads to a predisposition to these illnesses. In a bid to identify important regulatory polymorphisms (SNPs) that may emulate changes in gene dosage of the genes within the common deletion, we have analyzed the promoter region of 47 genes (44 of which encode a protein with known function) encoding proteins in and around 22q11 for sequence variants. A total of 33 of the promoters contained polymorphisms. Of those, 25 were cloned into a reporter gene vector, pGL3. The relative ability of each promoter haplotype to promote transcription of the luciferase gene was tested in each of two human cell lines (HEK293t and TE671), using a cotransfected CMV-SPAP plasmid as an internal control. Five genes (
PRODH
, DGCR14, GSTT2, SERPIND1, and a gene tentatively called DKFZP434P211) showed activity differences between haplotypes of greater than 1.5-fold. Of those,
PRODH
, which encodes proline dehydrogenase, has previously been highlighted in relation to
schizophrenia
, and the functional promoter polymorphism reported here may be involved in pathogenic mechanisms.
...
PMID:Functional analysis of polymorphisms in the promoter regions of genes on 22q11. 1522 87
Schizophrenia
has a strong genetic component but the mode of inheritance of the disease is complex and in all likelihood involves interaction among multiple genes and also possibly environmental or stochastic factors. A number of studies have shown that the 22q11 deletion syndrome (22q11DS) is a true genetic subtype of
schizophrenia
and as such may play an extremely important role in deciphering the genetic basis of
schizophrenia
. Microdeletions of the 22q11 locus are associated with a staggering increased risk to develop
schizophrenia
. The same locus has also been implicated by some linkage studies. Systematic examination of individual genes from the 1.5 Mb critical region has identified so far the
PRODH
and ZDHHC8 as strong candidate
schizophrenia
susceptibility genes from this locus. Discovery of these genes implicates neuromodulatory aminoacids and protein palmitoylation as important for disease development. Other genes, including the gene encoding for COMT, have been implicated by candidate gene approaches. It therefore appears that the 22q11-associated
schizophrenia
may have the characteristics of a contiguous gene syndrome, where deficiency in more than one gene contributes to the strikingly increased disease risk. Mouse models for individual candidate genes will provide the investigators with the opportunity to start understanding the function of these genes and how they may impact on
schizophrenia
. Mouse models that carry long-range deletions will likely capture the interactions among the culprit genes and help explain the genetic contribution of this locus to the high risk for
schizophrenia
. In-depth human and animal model studies of 22q11DS promise to answer critical questions relating to the devastating illness of
schizophrenia
, whose causes remain largely unknown.
...
PMID:The molecular genetics of the 22q11-associated schizophrenia. 1558 50
PRODH
maps to 22q11 in the region deleted in the velocardiofacial syndrome/DiGeorge syndrome (VCFS/DGS) and encodes proline oxidase (POX), a mitochondrial inner-membrane enzyme that catalyzes the first step in the proline degradation pathway. At least 16
PRODH
missense mutations have been identified in studies of type I hyperprolinemia (HPI) and
schizophrenia
, 10 of which are present at polymorphic frequencies. The functional consequences of these missense mutations have been inferred by evolutionary conservation, but none have been tested directly. Here, we report the effects of these mutations on POX activity. We find that four alleles (R185Q, L289M, A455S, and A472T) result in mild (<30%), six (Q19P, A167V, R185W, D426N, V427M, and R431H) in moderate (30%-70%), and five (P406L, L441P, R453C, T466M, and Q521E) in severe (>70%) reduction in POX activity, whereas one (Q521R) increases POX activity. The POX encoded by one severe allele (T466M) shows in vitro responsiveness to high cofactor (flavin adenine dinucleotide) concentrations. Although there is limited information on plasma proline levels in individuals of known
PRODH
genotype, extant data suggest that severe hyperprolinemia (>800 microM) occurs in individuals with large deletions and/or
PRODH
missense mutations with the most-severe effect on function (L441P and R453C), whereas modest hyperprolinemia (300-500 microM) is associated with
PRODH
alleles with a moderate reduction in activity. Interestingly, three of the four alleles associated with or found in
schizophrenia
(V427M, L441P, and R453C) resulted in severe reduction of POX activity and hyperprolinemia. These observations plus the high degree of polymorphism at the
PRODH
locus are consistent with the hypothesis that reduction in POX function is a risk factor for
schizophrenia
.
...
PMID:Functional consequences of PRODH missense mutations. 1566 99
The high pathogenetic relevance of genetic factors in
schizophrenia
is beyond doubt based on the findings of epidemiological studies. By means of a complex mode of transmission, it is likely that several genes with weak to moderate effect jointly constitute a genetic basis for a vulnerability to
schizophrenia
that may well vary for different individuals. Other organic and psychosocial factors also play an individually different -- in some cases significant -- role in terms of pathogenesis, as a result of which an oligogenic/polygenic multifactor model is assumed from the standpoint of aetiopathogenetics. Molecular genetic methods consist in linkage analyses and association analyses. Positive linkage findings accumulate particularly for the chromosomes 1q, 6p, 8p, 13q and 22q. By themselves, individual mutations contribute little to the range of schizophrenic feature characteristics, it was not possible -- irrespective of some subtypes -- to replicate genes of major effect. From the large number of possible candidate genes, although studies on DRD3, DRD2 and HTR2A produced positive results, the magnitudes of effect were low. The findings for alleles of dysbindin, neuregulin 1, DAO, COMT,
PRODH
, ZDHHC and DISC are less clear. The search for
schizophrenia
-relevant mutations is hampered by the possibility of a heterogeneous phenotype of
schizophrenia
in case of a homogeneous genotype as much as by the possibility of inter-individually homogeneous phenotypical characteristics in case of
schizophrenia
-relevant heterotype in the genome. With the aid of the concept of endo-phenotypes, based on neurobiological phenomena, it might be possible to take a more direct approach that leads from relevant mutations to the risk of schizophrenias. However, replacing schizophrenic alienation with neurobiological aspects leads to difficulties in explaining these complex disorder profiles. Schizophrenic diseases require an explanatory approach that also incorporates personality and developmental psychological aspects from the outset, if the aim is not to restrict type of schizophrenic disease exclusively to loci of molecular genetic changes.
...
PMID:[Genetic risk factors in schizophrenia]. 1627 Feb 44
Impressive advances in the last decade have been made in the genetics and neuroscience of neuropsychiatric illness. Synergies between complex genetics, elaboration of intermediate phenotypes (Egan et al. (2004)
Schizophrenia
. London: Blackwell) and novel applications in neuroimaging (Bookheimer et al. (2000) N Engl J Med, 343, 450-456) are revealing the effects of positively associated disease alleles on aspects of neurological function. Genes such as NRG-1, DISC1, RGS4, COMT,
PRODH
, DTNBP1, G72, DAAO, GRM3 (Harrison and Weinberger (2005) Mol Psychiatry, 10, 40-68) and others have been implicated in
schizophrenia
along with 5-HTTPR (Ogilvie et al. (1996) Lancet, 347, 731-733; Caspi et al. (2003) Science, 301, 386-389) and BDNF (Geller et al. (2004) Am J Psychiatry, 161, 1698-1700) in affective disorders. As the genetics and complex neurocircuits of these and disorders are being untangled, parallel applications in pharmacogenomics and gene-based drug metabolism are shaping a drive for personalized medicine. Genetic research and pharmacogenomics suggest that the subcategorization of individuals based on various sets of susceptibility alleles will make the treatment of neuropsychiatric and other illnesses more predictable and effective.
...
PMID:Psychiatric genetics--the new era: genetic research and some clinical implications. 1636 81
Neurodevelopmental changes may underlie the brain dysfunction seen in
schizophrenia
. While advances have been made in our understanding of the genetics of
schizophrenia
, little is known about how non-genetic factors interact with genes for
schizophrenia
. The present analysis of genes potentially associated with
schizophrenia
is based on the observation that hypoxia prevails in the embryonic and fetal brain, and that interactions between neuronal genes, molecular regulators of hypoxia, such as hypoxia-inducible factor 1 (HIF-1), and intrinsic hypoxia occur in the developing brain and may create the conditions for complex changes in neurodevelopment. Consequently, we searched the literature for currently hypothesized candidate genes for susceptibility to
schizophrenia
that may be subject to ischemia-hypoxia regulation and/or associated with vascular expression. Genes were considered when at least two independent reports of a significant association with
schizophrenia
had appeared in the literature. The analysis showed that more than 50% of these genes, particularly AKT1, BDNF, CAPON, CCKAR, CHRNA7, CNR1, COMT, DNTBP1, GAD1, GRM3, IL10, MLC1, NOTCH4, NRG1, NR4A2/NURR1,
PRODH
, RELN, RGS4, RTN4/NOGO and TNF, are subject to regulation by hypoxia and/or are expressed in the vasculature. Future studies of genes proposed as candidates for susceptibility to
schizophrenia
should include their possible regulation by physiological or pathological hypoxia during development as well as their potential role in cerebral vascular function.
...
PMID:Gene regulation by hypoxia and the neurodevelopmental origin of schizophrenia. 1663 32
Hemizygous deletion of a 3 Mb region of 22q11.2 is found in 1/4000 humans and produces 22q11 deletion syndrome (22q11DS). Up to 35% of 22q11DS patients develop
schizophrenia
, making it the second highest risk factor for
schizophrenia
. A mouse model for 22q11DS, the Df1/+ mouse, carries a hemizygous deletion in a region syntenic with the human deletion. Df1/+ mice are mostly viable but display deficits in prepulse inhibition and learning and memory, two common traits of
schizophrenia
thought to result, at least in part, from defects in hippocampal neurons. We used oligonucleotide microarrays and QRT-PCR to evaluate gene expression changes in hippocampal dentate granule neurons of Df1/+ mice versus wild-type littermates (n=12/group). The expression of only 287 genes changed with p value significance below 0.05 by microarray, yet 12 of the 21 Df1 region genes represented on the array showed highly significantly reduced expression compared to wild-type controls (33% on average, p values from 10(-3) to 10(-7)). Variants in two of these genes, COMT and
PRODH
, have been linked with
schizophrenia
. Overlap of the 287 genes with the reportedly reduced expression of mitochondrial, ubiquitin/proteasome, and synaptic plasticity genes in
schizophrenia
dentate granule neurons, was not significant. However, modest increases in expression of mitochondrial electron transport genes were observed in the Df1/+ mice. This perhaps indicates a compensation for mitochondrial dysfunction caused by the strongly reduced expression of the Df1 region-encoded mitochondrial enzymes proline dehydrogenase (Prodh) and thioredoxin reductase 2 (Txnrd2).
...
PMID:Altered expression of hippocampal dentate granule neuron genes in a mouse model of human 22q11 deletion syndrome. 1700 57
22q11 Deletion syndrome (22q11DS) is a common microdeletion syndrome with variable expression, including congenital and later onset conditions such as
schizophrenia
. Most studies indicate that expression does not appear to be related to length of the deletion but there is limited information on the endpoints of even the common deletion breakpoint regions in adults. We used a real-time quantitative PCR (qPCR) approach to fine map 22q11.2 deletions in 44 adults with 22q11DS, 22 with
schizophrenia
(SZ; 12 M, 10 F; mean age 35.7 SD 8.0 years) and 22 with no history of psychosis (NP; 8 M, 14 F; mean age 27.1 SD 8.6 years). QPCR data were consistent with clinical FISH results using the TUPLE1 or N25 probes. Two subjects (one SZ, one NP) negative for clinical FISH had atypical 22q11.2 deletions confirmed by FISH using the RP11-138C22 probe. Most (n = 34; 18 SZ, 16 NP) subjects shared a common 3 Mb hemizygous 22q11.2 deletion. However, eight subjects showed breakpoint variability: a more telomeric proximal breakpoint (n = 2), or more centromeric (n = 3) or more telomeric distal breakpoint (n = 3). One NP subject had a proximal nested 1.4 Mb deletion. COMT and TBX1 were deleted in all 44 subjects, and
PRODH
in 40 subjects (19 SZ, 21 NP). The results delineate proximal and distal breakpoint variants in 22q11DS. Neither deletion extent nor
PRODH
haploinsufficiency appeared to explain the clinical expression of
schizophrenia
in the present study. Further studies are needed to elucidate the molecular basis of
schizophrenia
and clinical heterogeneity in 22q11DS.
...
PMID:Molecular characterization of deletion breakpoints in adults with 22q11 deletion syndrome. 1702 64
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