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Query: UMLS:C0004352 (
autism
)
32,579
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Several genome-wide screens have indicated the presence of an
autism
susceptibility locus within the distal long arm of chromosome 7 (7q). Mapping at 7q22 within this region is the candidate gene reelin (RELN). RELN encodes a signaling protein that plays a pivotal role in the migration of several neuronal cell types and in the development of neural connections. Given these neurodevelopmental functions, recent reports that RELN influences genetic risk for
autism
are of significant interest. The total data set consists of 218 Caucasian families collected by our group, 85 Caucasian families collected by AGRE, and 68 Caucasian families collected at Tufts University were tested for genetic association of RELN variants to
autism
. Markers included five single-nucleotide polymorphisms (SNPs) and a repeat in the 5'-untranslated region (5'-UTR). Tests for association in Duke and AGRE families were also performed on four additional SNPs in the genes PSMC2 and ORC5L, which flank RELN. Family-based association analyses (
PDT
, Geno-
PDT
, and FBAT) were used to test for association of single-locus markers and multilocus haplotypes with
autism
. The most significant association identified from this combined data set was for the 5'-UTR repeat (
PDT
P-value=0.002). These analyses show the potential of RELN as an important contributor to genetic risk in
autism
.
...
PMID:Analysis of the RELN gene as a genetic risk factor for autism. 1555 79
Autism
is a common neurodevelopmental disorder with a significant genetic component. Existing research suggests that multiple genes contribute to
autism
and that epigenetic effects or gene-gene interactions are likely contributors to
autism
risk. However, these effects have not yet been identified. Gamma-aminobutyric acid (GABA), the primary inhibitory neurotransmitter in the adult brain, has been implicated in
autism
etiology. Fourteen known autosomal GABA receptor subunit genes were studied to look for the genes associated with
autism
and their possible interactions. Single-nucleotide polymorphisms (SNPs) were screened in the following genes: GABRG1, GABRA2, GABRA4, and GABRB1 on chromosome 4p12; GABRB2, GABRA6, GABRA1, GABRG2, and GABRP on 5q34-q35.1; GABRR1 and GABRR2 on 6q15; and GABRA5, GABRB3, and GABRG3 on 15q12. Intronic and/or silent mutation SNPs within each gene were analyzed in 470 white families with
autism
. Initially, SNPs were used in a family-based study for allelic association analysis--with the pedigree disequilibrium test and the family-based association test--and for genotypic and haplotypic association analysis--with the genotype-pedigree disequilibrium test (geno-PDT), the association in the presence of linkage (APL) test, and the haplotype family-based association test. Next, with the use of five refined independent marker sets, extended multifactor-dimensionality reduction (EMDR) analysis was employed to identify the models with locus joint effects, and interaction was further verified by conditional logistic regression. Significant allelic association was found for markers RS1912960 (in GABRA4; P = .01) and HCV9866022 (in GABRR2; P = .04). The geno-
PDT
found significant genotypic association for HCV8262334 (in GABRA2), RS1912960 and RS2280073 (in GABRA4), and RS2617503 and RS12187676 (in GABRB2). Consistent with the allelic and genotypic association results, EMDR confirmed the main effect at RS1912960 (in GABRA4). EMDR also identified a significant two-locus gene-gene effect model involving RS1912960 in GABRA4 and RS2351299 in GABRB1. Further support for this two-locus model came from both the multilocus geno-
PDT
and the APL test, which indicated a common genotype and haplotype combination positively associated with disease. Finally, these results were also consistent with the results from the conditional logistic regression, which confirmed the interaction between GABRA4 and GABRB1 (odds ratio = 2.9 for interaction term; P = .002). Through the convergence of all analyses, we conclude that GABRA4 is involved in the etiology of
autism
and potentially increases
autism
risk through interaction with GABRB1. These results support the hypothesis that GABA receptor subunit genes are involved in
autism
, most likely via complex gene-gene interactions.
...
PMID:Identification of significant association and gene-gene interaction of GABA receptor subunit genes in autism. 1608 Jan 14
Gene-gene interactions are likely involved in many complex genetic disorders and new statistical approaches for detecting such interactions are needed. We propose a multi-analytic paradigm, relying on convergence of evidence across multiple analysis tools. Our paradigm tests for main and interactive effects, through allele, genotype and haplotype association. We applied our paradigm to genotype data from three GABAA receptor subunit genes (GABRB3, GABRA5, and GABRG3) on chromosome 15 in 470 Caucasian
autism
families. Previously implicated in
autism
, we hypothesized these genes interact to contribute to risk. We detected no evidence of main effects by allelic (
PDT
, FBAT) or genotypic (genotype-
PDT
) association at individual markers. However, three two-marker haplotypes in GABRG3 were significant (HBAT). We detected no significant multi-locus associations using genotype-
PDT
analysis or the EMDR data reduction program. However, consistent with the haplotype findings, the best single locus EMDR model selected a GABRG3 marker. Further, the best pairwise genotype-
PDT
result involved GABRB3 and GABRG3, and all multi-locus EMDR models also selected GABRB3 and GABRG3 markers. GABA receptor subunit genes do not significantly interact to contribute to
autism
risk in our overall data set. However, the consistency of results across analyses suggests that we have defined a useful framework for evaluating gene-gene interactions.
...
PMID:An analysis paradigm for investigating multi-locus effects in complex disease: examination of three GABA receptor subunit genes on 15q11-q13 as risk factors for autistic disorder. 1667 51
The TPH1 and TPH2 genes encode the rate-limiting enzymes that control serotonin biosynthesis, and serotonin is clearly altered in
autism
. In the current study, eight SNPs in the TPH1 gene region and eight SNPs within the TPH2 gene were examined by family-based association tests in a large cohort of 352 families with
autism
and in clinically defined subsets of these families with either severe obsessive-compulsive behaviors (sOCB) or self-stimulatory behaviors (SSB). We found no evidence for association between
autism
and single SNPs or haplotypes of the TPH1 and TPH2 genes in the cohort of all families or in the sOCB and SSB subsets. In particular, we failed to replicate the association between
autism
and variants of the TPH2 gene, rs4341581 (TRANSMIT P = 1;
PDT
P = 0.323; FBAT P = 0.446) and rs11179000 (TRANSMIT P = 0.174;
PDT
P = 0.293; FBAT P = 0.374). Furthermore, no evidence for linkage was observed between
autism
and SNPs in the TPH1 and TPH2 genes (although linkage at the TPH2 locus was observed in the SSB subset). Thus, it appears unlikely that the TPH1 and TPH2 genes play a significant role in the susceptibility to
autism
or to
autism
endophenotypes including sOCB and SSB.
...
PMID:Family-based association study of TPH1 and TPH2 polymorphisms in autism. 1695 27
