- Xia, Kun;
- Xiong, Hui;
- Shin, Yeonsook;
- Wang, Danling;
- Deerinck, Tom;
- Takahashi, Hiroto;
- Ellisman, Mark H;
- Lipton, Stuart A;
- Tong, Gang;
- Descalzi, Giannina;
- Zhang, Dongxian;
- Zhuo, Min;
- Zhang, Zhuohua
Abstract K+ channel interacting protein 1 (KChIP1) is a neuronal calcium sensor (NCS) protein that interacts with multiple intracellular molecules. Its physiological function, however, remains largely unknown. We report that KChIP1 is predominantly expressed at GABAergic synapses of a subset of parvalbumin-positive neurons in the brain. Forced expression of KChIP1 in cultured hippocampal neurons increased the frequency of miniature inhibitory postsynaptic currents (mIPSCs), reduced paired pulse facilitation of autaptic IPSCs, and decreases potassium current density. Furthermore, genetic ablation of KChIP1 potentiated potassium current density in neurons and caused a robust enhancement of anxiety-like behavior in mice. Our study suggests that KChIP1 is a synaptic protein that regulates behavioral anxiety by modulating inhibitory synaptic transmission, and drugs that act on KChIP1 may help to treat patients with mood disorders including anxiety.