Disruption of Neurexin 1 Associated with Autism Spectrum Disorder

Overview

Journal Am J Hum Genet

Publisher Cell Press

Specialty Genetics

Date 2008 Jan 9

PMID 18179900

Citations 299

Authors

Hyung-Goo Kim

Shotaro Kishikawa

Anne W Higgins

Ihn-Sik Seong

Diana J Donovan

Yiping Shen

Eric Lally

Lauren A Weiss

Juliane Najm

Kerstin Kutsche

Maria Descartes

Lynn Holt

Stephen Braddock

Robin Troxell

Lee Kaplan

Fred Volkmar

Ami Klin

Katherine Tsatsanis

David J Harris

Ilse Noens

David L Pauls

Mark J Daly

Marcy E MacDonald

Cynthia C Morton

Bradley J Quade

James F Gusella

Affiliations

Soon will be listed here.

Abstract

Autism is a neurodevelopmental disorder of complex etiology in which genetic factors play a major role. We have implicated the neurexin 1 (NRXN1) gene in two independent subjects who display an autism spectrum disorder (ASD) in association with a balanced chromosomal abnormality involving 2p16.3. In the first, with karyotype 46,XX,ins(16;2)(q22.1;p16.1p16.3)pat, NRXN1 is directly disrupted within intron 5. Importantly, the father possesses the same chromosomal abnormality in the absence of ASD, indicating that the interruption of alpha-NRXN1 is not fully penetrant and must interact with other factors to produce ASD. The breakpoint in the second subject, with 46,XY,t(1;2)(q31.3;p16.3)dn, occurs approximately 750 kb 5' to NRXN1 within a 2.6 Mb genomic segment that harbors no currently annotated genes. A scan of the NRXN1 coding sequence in a cohort of ASD subjects, relative to non-ASD controls, revealed that amino acid alterations in neurexin 1 are not present at high frequency in ASD. However, a number of rare sequence variants in the coding region, including two missense changes in conserved residues of the alpha-neurexin 1 leader sequence and of an epidermal growth factor (EGF)-like domain, respectively, suggest that even subtle changes in NRXN1 might contribute to susceptibility to ASD.

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