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  • Opposite monosynaptic scaling of BLP-vCA1 inputs governs hopefulness- and helplessness-modulated spatial learning and memory.

Opposite monosynaptic scaling of BLP-vCA1 inputs governs hopefulness- and helplessness-modulated spatial learning and memory.

Nature communications (2016-07-15)
Ying Yang, Zhi-Hao Wang, Sen Jin, Di Gao, Nan Liu, Shan-Ping Chen, Sinan Zhang, Qing Liu, Enjie Liu, Xin Wang, Xiao Liang, Pengfei Wei, Xiaoguang Li, Yin Li, Chenyu Yue, Hong-Lian Li, Ya-Li Wang, Qun Wang, Dan Ke, Qingguo Xie, Fuqiang Xu, Liping Wang, Jian-Zhi Wang
ABSTRACT

Different emotional states lead to distinct behavioural consequences even when faced with the same challenging events. Emotions affect learning and memory capacities, but the underlying neurobiological mechanisms remain elusive. Here we establish models of learned helplessness (LHL) and learned hopefulness (LHF) by exposing animals to inescapable foot shocks or with anticipated avoidance trainings. The LHF animals show spatial memory potentiation with excitatory monosynaptic upscaling between posterior basolateral amygdale (BLP) and ventral hippocampal CA1 (vCA1), whereas the LHL show memory deficits with an attenuated BLP-vCA1 connection. Optogenetic disruption of BLP-vCA1 inputs abolishes the effects of LHF and impairs synaptic plasticity. By contrast, targeted BLP-vCA1 stimulation rescues the LHL-induced memory deficits and mimics the effects of LHF. BLP-vCA1 stimulation increases synaptic transmission and dendritic plasticity with the upregulation of CREB and intrasynaptic AMPA receptors in CA1. These findings indicate that opposite excitatory monosynaptic scaling of BLP-vCA1 controls LHF- and LHL-modulated spatial memory, revealing circuit-specific mechanisms linking emotions to memory.

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Anti-c-Fos antibody produced in rabbit, IgG fraction of antiserum, buffered aqueous solution