Impaired calcium signaling in astrocytes modulates autism spectrum disorder-like behaviors in mice
Qian Wang, Ying Kong, Dingyu Wu, Jihong Liu, Wei Jie, Qiang-Long You, Lang Huang, Jian Hu, Huai-De Chu, Feng Gao, Neng-Yuan Hu, Zhou-Cai Luo, Xiaowen Li, Shu-Ji Li, Zhaofa Wu, Yulong Li, Jian‐Ming Yang, Tianming Gao
Abstract
Abstract Autism spectrum disorder (ASD) is a common neurodevelopmental disorder. The mechanisms underlying ASD are unclear. Astrocyte alterations are noted in ASD patients and animal models. However, whether astrocyte dysfunction is causal or consequential to ASD-like phenotypes in mice is unresolved. Type 2 inositol 1,4,5-trisphosphate 6 receptors (IP3R2)-mediated Ca 2+ release from intracellular Ca 2+ stores results in the activation of astrocytes. Mutations of the IP3R2 gene are associated with ASD. Here, we show that both IP3R2-null mutant mice and astrocyte-specific IP3R2 conditional knockout mice display ASD-like behaviors, such as atypical social interaction and repetitive behavior. Furthermore, we show that astrocyte-derived ATP modulates ASD-like behavior through the P2X2 receptors in the prefrontal cortex and possibly through GABAergic synaptic transmission. These findings identify astrocyte-derived ATP as a potential molecular player in the pathophysiology of ASD.