Haploinsufficiency of a Circadian Clock Gene Bmal1 ( Arntl or Mop3 ) Causes Brain-Wide mTOR Hyperactivation and Autism-like Behavioral Phenotypes in Mice.

Approximately 50-80% of children with autism spectrum disorders (ASDs) exhibit sleep problems, but the contribution of circadian clock dysfunction to the development of ASDs remains largely unknown. The essential clock gene Bmal1 ( Arntl or Mop3 ) has been associated with human sociability, and its missense mutation is found in ASD. Our recent study found that Bmal1 -null mice exhibit a variety of autism-like phenotypes. Here, we further investigated whether an incomplete loss of Bmal1 function could cause significant autism-like behavioral changes in mice. Our results demonstrated that heterozygous Bmal1 deletion ( Bmal1 +/- ) reduced the Bmal1 protein levels by ~50-75%. Reduced Bmal1 expression led to decreased levels of clock proteins, including Per1, Per2, Cry 1, and Clock but increased mTOR activities in the brain. Accordingly, Bmal1 +/- mice exhibited aberrant ultrasonic vocalizations during maternal separation, deficits in sociability and social novelty, excessive repetitive behaviors, impairments in motor coordination, as well as increased anxiety-like behavior. The novel object recognition memory remained intact. Together, these results demonstrate that haploinsufficiency of Bmal1 can cause autism-like behavioral changes in mice, akin to those identified in Bmal1 -null mice. This study provides further experimental evidence supporting a potential role for disrupted clock gene expression in the development of ASD.