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Molecular Autism
Published in: Molecular Autism 1/2014

Open Access 01-12-2014 | Research

Identification of rare DNA sequence variants in high-risk autism families and their prevalence in a large case/control population

Authors: Nori Matsunami, Charles H Hensel, Lisa Baird, Jeff Stevens, Brith Otterud, Tami Leppert, Tena Varvil, Dexter Hadley, Joseph T Glessner, Renata Pellegrino, Cecilia Kim, Kelly Thomas, Fengxiang Wang, Frederick G Otieno, Karen Ho, Gerald B Christensen, Dongying Li, Rytis Prekeris, Christophe G Lambert, Hakon Hakonarson, Mark F Leppert

Published in: Molecular Autism | Issue 1/2014

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Abstract

Background

Genetics clearly plays a major role in the etiology of autism spectrum disorders (ASDs), but studies to date are only beginning to characterize the causal genetic variants responsible. Until recently, studies using multiple extended multi-generation families to identify ASD risk genes had not been undertaken.

Methods

We identified haplotypes shared among individuals with ASDs in large multiplex families, followed by targeted DNA capture and sequencing to identify potential causal variants. We also assayed the prevalence of the identified variants in a large ASD case/control population.

Results

We identified 584 non-conservative missense, nonsense, frameshift and splice site variants that might predispose to autism in our high-risk families. Eleven of these variants were observed to have odds ratios greater than 1.5 in a set of 1,541 unrelated children with autism and 5,785 controls. Three variants, in the RAB11FIP5, ABP1, and JMJD7-PLA2G4B genes, each were observed in a single case and not in any controls. These variants also were not seen in public sequence databases, suggesting that they may be rare causal ASD variants. Twenty-eight additional rare variants were observed only in high-risk ASD families. Collectively, these 39 variants identify 36 genes as ASD risk genes. Segregation of sequence variants and of copy number variants previously detected in these families reveals a complex pattern, with only a RAB11FIP5 variant segregating to all affected individuals in one two-generation pedigree. Some affected individuals were found to have multiple potential risk alleles, including sequence variants and copy number variants (CNVs), suggesting that the high incidence of autism in these families could be best explained by variants at multiple loci.

Conclusions

Our study is the first to use haplotype sharing to identify familial ASD risk loci. In total, we identified 39 variants in 36 genes that may confer a genetic risk of developing autism. The observation of 11 of these variants in unrelated ASD cases further supports their role as ASD risk variants.
Appendix
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Metadata
Title
Identification of rare DNA sequence variants in high-risk autism families and their prevalence in a large case/control population
Authors
Nori Matsunami
Charles H Hensel
Lisa Baird
Jeff Stevens
Brith Otterud
Tami Leppert
Tena Varvil
Dexter Hadley
Joseph T Glessner
Renata Pellegrino
Cecilia Kim
Kelly Thomas
Fengxiang Wang
Frederick G Otieno
Karen Ho
Gerald B Christensen
Dongying Li
Rytis Prekeris
Christophe G Lambert
Hakon Hakonarson
Mark F Leppert
Publication date
01-12-2014
Publisher
BioMed Central
Published in
Molecular Autism / Issue 1/2014
Electronic ISSN: 2040-2392
DOI
https://doi.org/10.1186/2040-2392-5-5

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