Deletion of the mouse genomic interval corresponding to human 16p11.2 causes autism-like phenotypes

Autism is a neuro-cognitive disorder characterized by a broad spectrum of clinical features including repetitive behaviors, restricted interests, language impairment, and altered social interactions. Although chromosome rearrangements affecting specific genomic intervals have been found in patients with autism, the basis for this syndrome is unknown. Deletion of 16p11.2 has been associated with autism, and patients with this deletion have a wide range of clinical symptoms. Here we used chromosome engineering to generate mice with deletion of the 27 genes corresponding to those affected in autism patients with 16p11.2 deletion, as well as mice harboring duplication of the same region. Mice with decreased dosage of this region have unique phenotypes including neonatal lethality, alterations in the volumes of specific brain regions, as well as behaviors reminiscent of clinical features of autism. In particular, mice with 16p11.2 deletion showed behaviors that were repetitive and restricted to specific locations, in contrast to diploid controls that showed a gradual increase in freedom of movement under similar conditions. These findings provide the first functional evidence that compromised dosage of 16p11.2 is causal in autism.