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Query: UMLS:C0004352 (
autism
)
32,579
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Although there is considerable evidence for a strong genetic component to idiopathic
autism
, several genome-wide screens for susceptibility genes have been carried out with limited concordance of linked loci, reflecting numerous genes of weak effect and/or sample heterogeneity. In the current study, linkage analysis was carried out in a sample of 62
autism
-affected relative pairs with more severe obsessive-compulsive behaviors, selected from a larger (n=115) set of
autism
-affected relative pairs as a means of reducing sample heterogeneity. Obsessive-compulsive behaviors were assessed using the
Autism
Diagnostic Interview-Revised (ADI-R). In the sample with more severe obsessive-compulsive behaviors, multipoint
NPL
scores above 2 were observed on chromosomes 1, 4, 5, 6, 10, 11 and 19, with the strongest evidence for linkage on chromosome 1 at the marker D1S1656, where the multipoint
NPL
score was 3.06, and the two-point
NPL
score was 3.21. In follow-up analyses, analyzing the subset of families (n=35) where the patients had the most severe obsessive-compulsive behaviors generated a multipoint
NPL
score of 2.76, and a two-point
NPL
score of 2.79, indicating that the bulk of evidence for linkage was derived from the families most severely affected with obsessive-compulsive behaviors. The data suggest that there is an
autism
susceptibility gene on chromosome 1 and provide further support for the presence of
autism
susceptibility genes on chromosomes 6 and 19.
...
PMID:Linkage analysis for autism in a subset families with obsessive-compulsive behaviors: evidence for an autism susceptibility gene on chromosome 1 and further support for susceptibility genes on chromosome 6 and 19. 1469 29
Autism
is a pervasive developmental disorder with a strong genetic component. While candidate regions of the genome have been identified, location of genes conferring susceptibility to
autism
has been hindered by the heterogeneity within this clinically defined disorder, and the likely contribution of many genes of weak effect. Subsetting samples on the basis of distinct, nondiagnostic clinical features has been recommended to decrease sample heterogeneity. In this study, linkage analysis was performed on a subset of families in the database of the
Autism
Genetic Resource Exchange (AGRE). This set of
autism
-affected relative pairs (n=34) was also concordant for a history of developmental regression as measured by the
Autism
Diagnostic Interview-Revised (ADI-R). In this sample, a maximum multipoint LOD score of 3.4 under the dominant mode of inheritance and an
NPL
score of 3.0 (P=1.3 x 10(-3)) were observed on chromosome 21 near D21S1437. On chromosome 7 near D7S483 a LOD score of 2.0 under the dominant mode of inheritance and an
NPL
score of 3.7 (P=7.9 x 10(-5)) were observed. Genetic elements in these regions of 21q and 7q are likely to confer susceptibility to
autism
or modify the disease presentation in a subgroup of children characterized by a history of developmental regression.
...
PMID:Evidence for linkage on 21q and 7q in a subset of autism characterized by developmental regression. 1680 76
Though
autism
shows strong evidence for genetic etiology, specific genes have not yet been found. We tested for linkage in a candidate region on chromosome 3q25-27 first identified in Finnish
autism
families [1]. The peak in this previous study was at D3S3037 (183.9 cM). We tested this region in seven affected family members and 24 of their relatives from a single large extended Utah pedigree of Northern European ancestry. A total of 70 single nucleotide polymorphisms (SNPs) were analyzed from 165 to 204 cM. The maximum
NPL
-all nonparametric score using SimWalk2snp was 3.53 (empirical p val ue = 0.0003) at 185.2 cM (SNP rs1402229), close to the Finnish peak. A secondary analysis using MCLINK supported this result, with a maximum of 3.92 at 184.6 cM (SNP rs1362645). We tested for alterations in a candidate gene in this region, the fragile X autosomal homolog, FXR1. No variants likely to contribute to
autism
were found in the coding sequence, exon-intron boundaries, or the promoter region of this gene.
...
PMID:Evidence for linkage on chromosome 3q25-27 in a large autism extended pedigree. 1639 90
The identification of
autism
susceptibility genes has been hampered by phenotypic heterogeneity of
autism
, among other factors. However, the use of endophenotypes has shown preliminary success in reducing heterogeneity and identifying potential
autism
-related susceptibility regions. To further explore the utility of using language-related endophenotypes, we performed linkage analysis on multiplex
autism
families stratified according to delayed expressive speech and also assessed the extent to which parental phenotype information would aid in identifying regions of linkage. A whole genome scan using a multipoint non-parametric linkage approach was performed in 133 families, stratifying the sample by phrase speech delay and word delay (WD). None of the regions reached suggested genome-wide or replication significance thresholds. However, several loci on chromosomes 1, 2, 4, 6, 7, 8, 9, 10, 12, 15, and 19 yielded nominally higher linkage signals in the delayed groups. The results did not support reported linkage findings for loci on chromosomes 7 or 13 that were a result of stratification based on the language delay endophenotype. In addition, inclusion of information on parental history of language delay did not appreciably affect the linkage results. The nominal increase in
NPL
scores across several regions using language delay endophenotypes for stratification suggests that this strategy may be useful in attenuating heterogeneity. However, the inconsistencies in regions identified across studies highlight the importance of increasing sample sizes to provide adequate power to test replications in independent samples.
...
PMID:Stratification based on language-related endophenotypes in autism: attempt to replicate reported linkage. 1675 61
About 80% of cases with
autism
express intellectual disability. Both in
autism
and in mental retardation without
autism
the majority of the cases are males, suggesting a X-chromosomal effect. In fact, some molecular evidence has been obtained for a common genetic background for
autism
spectrum disorders (ASD) and X-linked mental retardation (XLMR). In several genome-wide scans (GWS), evidence for linkage at X-chromosome has been reported including the GWS of Finnish ASD families with the highest multipoint lod score (MLS) of 2.75 obtained close to DXS7132 at Xq11.1. To further dissect the relationship between
autism
and genes implicated in XLMR, we have fine-mapped Xq11.1-q21.33 and analyzed five candidate genes in the region. We refined the region using 26 microsatellite markers and linkage analysis in 99 Finnish families with ASD. The most significant evidence for linkage was observed at DXS1225 on Xq21.1 with a nonparametric multipoint
NPL
(all) value of 3.43 (P = 0.0004). We sequenced the coding regions and splice sites of RPS6KA6 and ZNF711 residing at the peak region in 42 male patients from families contributing to the linkage. We also analyzed ACSL4 and DLG3, which have previously been known to cause XLMR and IL1RAPL2, a homologous gene for IL1RAPL1 that is mutated in
autism
and XLMR. A total of six novel and 11 known single nucleotide polymorphisms were identified. Further studies are warranted to analyze the candidate genes at Xq11.1-q21.33.
Autism
Res 2011 Jun
PMID:Fine mapping of Xq11.1-q21.33 and mutation screening of RPS6KA6, ZNF711, ACSL4, DLG3, and IL1RAPL2 for autism spectrum disorders (ASD). 2138 59
