Examination of NRCAM, LRRN3, KIAA0716, and LAMB1 as autism candidate genes (original) (raw)
Related papers
Mutation screening and association analysis of six candidate genes for autism on chromosome 7q
European Journal of Human Genetics, 2005
Genetic studies have provided evidence for an autism susceptibility locus (AUTS1) on chromosome 7q. Screening for mutations in six genes mapping to 7q, CUTL1, SRPK2, SYPL, LAMB1, NRCAM and PTPRZ1 in 48 unrelated individuals with autism led to the identification of several new coding variants in the genes CUTL1, LAMB1 and PTPRZ1. Analysis of genetic variants provided evidence for association with autism for one of the new missense changes identified in LAMB1; this effect was stronger in a subgroup of affected male sibling pair families, implying a possible specific sex-related effect for this variant. Association was also detected for several polymorphisms in the promoter and untranslated region of NRCAM, suggesting that alterations in expression of this gene may be linked to autism susceptibility.
2009
Chromosome 17q11-q21 is a region of the genome likely to harbor susceptibility to autism (MIM[209850]) based on prior evidence of linkage to the disorder. This linkage is specific to multiplex pedigrees containing only male probands (MO) within the Autism Genetic Resource Exchange (AGRE). Previously, Stone et al.1 completed a high-density SNP association study of 13.7Mb within this interval, but common variant association was not sufficient to account for the linkage signal. Here we extend this SNP-based association study to complete the coverage of the 2 LOD support interval around the chromosome 17q linkage peak by testing the majority of common alleles in 284 MO trios. CONCLUSIONS-Markers within an interval containing the gene CACNA1G were found to be associated with Autism Spectrum Disorder at a locally significant level (p = 1.9 × 10-5). While establishing CACNA1G as a novel candidate for autism, these alleles do not contribute sufficient genetic effect to explain the observed linkage, indicating there is substantial genetic heterogeneity despite the clear linkage signal. The region thus likely harbors a combination of multiple common and rare alleles contributing to the genetic risk. These data, along with previous studies of Chromosomes 5 and 7q3, suggest few if any major common risk alleles account for ASD risk under major linkage peaks in the AGRE sample. This provides important evidence for strategies to identify ASD genes, suggesting they should focus on identifying rare variants and common variants of small effect.
International Molecular Genetic Study of Autism Consortium
2002
Autism is characterized by impairments in reciprocal social interaction and communication, and restricted and stereotyped patterns of interests and activities. Developmental difficulties are apparent before 3 years of age and there is evidence for strong genetic influences most likely involving more than one susceptibility gene. A two-stage genome search for susceptibility loci in autism was performed on 87 affected sib pairs plus 12 non-sib affected relativepairs, from a total of 99 families identified by an international consortium. Regions on six chromosomes (4, 7, 10, 16, 19 and 22) were identified which generated a multipoint maximum lod score (MLS) > 1. A region on chromosome 7q was the most significant with an MLS of 3.55 near markers D7S530 and D7S684 in the subset of 56 UK affected sib-pair families, and an MLS of 2.53 in all 87 affected sib-pair families. An area on chromosome 16p near the telomere was the next most significant, with an MLS of 1.97 in the UK families, and 1.51 in all families. These results are an important step towards identifying genes predisposing to autism; establishing their general applicability requires further study.
A genome-wide linkage study in autism
Presents information on different studies and research related to autism in psychiatry. Names of people and institutes conducting the studies; Details of the studies; Conclusions of the studies.
Linkage and candidate gene studies of autism spectrum disorders in European populations
European Journal of Human Genetics, 2010
Over the past decade, research on the genetic variants underlying susceptibility to autism and autism spectrum disorders (ASDs) has focused on linkage and candidate gene studies. This research has implicated various chromosomal loci and genes. Candidate gene studies have proven to be particularly intractable, with many studies failing to replicate previously reported associations. In this paper, we investigate previously implicated genomic regions for a role in ASD susceptibility, using four cohorts of European ancestry. Initially, a 384 SNP Illumina GoldenGate array was used to examine linkage at six previously implicated loci. We identify linkage approaching genome-wide suggestive levels on chromosome 2 (rs2885116, MLOD¼1.89). Association analysis showed significant associations in MKL2 with ASD (rs756472, P¼4.31Â10 À5 ) and between SND1 and strict autism (rs1881084, P¼7.76Â10 À5 ) in the Finnish and Northern Dutch populations, respectively. Subsequently, we used a second 384 SNP Illumina GoldenGate array to examine the association in seven candidate genes, and evidence for association was found in RELN (rs362780, P¼0.00165). Further increasing the sample size strengthened the association with RELN (rs362780, P¼0.001) and produced a second significant result in GRIK2 (rs2518261, P¼0.008). Our results strengthen the case for a more detailed study of the role of RELN and GRIK2 in autism susceptibility, as well as identifying two new potential candidate genes, MKL2 and SND1.
High density SNP association study of a major autism linkage region on chromosome 17
Human Molecular Genetics, 2006
A region on chromosome 17 has recently been highlighted as linked to autism (MIM[209850]) in multiple studies and evidence has accumulated suggesting that male-only families (those families that have produced only affected males) provide the major contribution to linkage at this locus. In an attempt to comprehensively test for association of common variants to autism within the region on chromosome 17 defined in Stone et al.
2016
Autism, Aspergers Syndrome and Pervasive Developmental Delay-Not Otherwise Specified (PDD-NOS), among others, fall under an umbrella of disorders known as Autism Spectrum Disorder. Twin studies show that autism is a highly heritable disorder. More than 100 genes have been implicated in the aetiology of autism, each of which is involved in numerous biological processes and a variety of molecular interactions. William-Beuren syndrome is a multisystem developmental disorder caused by the deletion of contiguous genes at the 7q11.23 position. The aims of this study were (i) to genotype three SNPs (rs10279013, rs2293484 and rs17060) in the ABHD11 and ABCA13 genes, respectively, using Taqman ® SNP Genotyping assays to detect association with autism in three distinct South African (SA) ethnic groups (Black, Caucasian and Mixed), and (ii) to ascertain common pathways or regulating transcription factors for genes on chromosome 7 that may attribute to it being an “autism hotspot”. Chapter 3 ob...
Human Molecular Genetics, 1998
Autism is characterized by impairments in reciprocal social interaction and communication, and restricted and stereotyped patterns of interests and activities. Developmental difficulties are apparent before 3 years of age and there is evidence for strong genetic influences most likely involving more than one susceptibility gene. A two-stage genome search for susceptibility loci in autism was performed on 87 affected sib pairs plus 12 non-sib affected relativepairs, from a total of 99 families identified by an international consortium. Regions on six chromosomes (4, 7, 10, 16, 19 and 22) were identified which generated a multipoint maximum lod score (MLS) > 1. A region on chromosome 7q was the most significant with an MLS of 3.55 near markers D7S530 and D7S684 in the subset of 56 UK affected sib-pair families, and an MLS of 2.53 in all 87 affected sib-pair families. An area on chromosome 16p near the telomere was the next most significant, with an MLS of 1.97 in the UK families, and 1.51 in all families. These results are an important step towards identifying genes predisposing to autism; establishing their general applicability requires further study.
A high-density SNP genome-wide linkage scan in a large autism extended pedigree
Molecular Psychiatry, 2009
We performed a high-density, single nucleotide polymorphism (SNP), genome-wide scan on a six-generation pedigree from Utah with seven affected males, diagnosed with autism spectrum disorder. Using a two-stage linkage design, we first performed a nonparametric analysis on the entire genome using a 10K SNP chip to identify potential regions of interest. To confirm potentially interesting regions, we eliminated SNPs in high linkage disequilibrium (LD) using a principal components analysis (PCA) method and repeated the linkage results. Three regions met genome-wide significance criteria after controlling for LD: 3q13.2-q13.31 (nonparametric linkage (NPL), 5.58), 3q26.31-q27.3 (NPL, 4.85) and 20q11.21-q13.12 (NPL, 5.56). Two regions met suggestive criteria for significance 7p14.1-p11.22 (NPL, 3.18) and 9p24.3 (NPL, 3.44). All five chromosomal regions are consistent with other published findings. Haplotype sharing results showed that five of the affected subjects shared more than a single chromosomal region of interest with other affected subjects. Although no common autism susceptibility genes were found for all seven autism cases, these results suggest that multiple genetic loci within these regions may contribute to the autism phenotype in this family, and further followup of these chromosomal regions is warranted.
The Egyptian Journal of Neurology, Psychiatry and Neurosurgery, 2021
Background Recessive homozygous haplotype (rHH) mapping is a reliable tool for identifying recessive genes by detecting homozygous segments of identical haplotype structures. These are shared at a higher frequency amongst probands compared to parental controls. Finding out such rHH blocks in autism subjects can help in deciphering the disorder etiology. Objectives The study aims to detect rHH segments of identical haplotype structure shared at a higher frequency in autism subjects than controls to identify recessive genes responsible for autism manifestation. Methods In the present study, 426 unrelated autism genotyped probands with 232 parents (116 trios) were obtained from Gene Expression Omnibus (GEO) Database. Homozygosity mapping analyses have been performed on the samples using standardized algorithms using the Affymetrix GeneChip® 500K SNP Nsp and Sty mapping arrays datasets. Results A total of 38 homozygous haplotype blocks were revealed across sample datasets. Upon downstre...