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Loss of function of NCOR1 and NCOR2 impairs memory through a novel GABAergic hypothalamus-CA3 projection.

Nature neuroscience (2019-01-22)
Wenjun Zhou, Yanlin He, Atteeq U Rehman, Yan Kong, Sungguan Hong, Guolian Ding, Hari Krishna Yalamanchili, Ying-Wooi Wan, Basil Paul, Chuhan Wang, Yingyun Gong, Wenxian Zhou, Hao Liu, John Dean, Emmanuel Scalais, Mary O'Driscoll, Jenny E V Morton, Xinguo Hou, Qi Wu, Qingchun Tong, Zhandong Liu, Pengfei Liu, Yong Xu, Zheng Sun
ABSTRAKT

Nuclear receptor corepressor 1 (NCOR1) and NCOR2 (also known as SMRT) regulate gene expression by activating histone deacetylase 3 through their deacetylase activation domain (DAD). We show that mice with DAD knock-in mutations have memory deficits, reduced anxiety levels, and reduced social interactions. Mice with NCOR1 and NORC2 depletion specifically in GABAergic neurons (NS-V mice) recapitulated the memory deficits and had reduced GABAA receptor subunit α2 (GABRA2) expression in lateral hypothalamus GABAergic (LHGABA) neurons. This was associated with LHGABA neuron hyperexcitability and impaired hippocampal long-term potentiation, through a monosynaptic LHGABA to CA3GABA projection. Optogenetic activation of this projection caused memory deficits, whereas targeted manipulation of LHGABA or CA3GABA neuron activity reversed memory deficits in NS-V mice. We describe de novo variants in NCOR1, NCOR2 or HDAC3 in patients with intellectual disability or neurodevelopmental disorders. These findings identify a hypothalamus-hippocampus projection that may link endocrine signals with synaptic plasticity through NCOR-mediated regulation of GABA signaling.