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Literature DB >> 28768803

Modulation of prefrontal cortex excitation/inhibition balance rescues social behavior in CNTNAP2-deficient mice.

Aslihan Selimbeyoglu¹, Christina K Kim¹, Masatoshi Inoue², Soo Yeun Lee^2,3, Alice S O Hong², Isaac Kauvar⁴, Charu Ramakrishnan², Lief E Fenno^2,3, Thomas J Davidson^2,3, Matthew Wright³, Karl Deisseroth^5,3,6.

Abstract

Alterations in the balance between neuronal excitation and inhibition (E:I balance) have been implicated in the neural circuit activity-based processes that contribute to autism phenotypes. We investigated whether acutely reducing E:I balance in mouse brain could correct deficits in social behavior. We used mice lacking the CNTNAP2 gene, which has been implicated in autism, and achieved a temporally precise reduction in E:I balance in the medial prefrontal cortex (mPFC) either by optogenetically increasing the excitability of inhibitory parvalbumin (PV) neurons or decreasing the excitability of excitatory pyramidal neurons. Surprisingly, both of these distinct, real-time, and reversible optogenetic modulations acutely rescued deficits in social behavior and hyperactivity in adult mice lacking CNTNAP2 Using fiber photometry, we discovered that native mPFC PV neuronal activity differed between CNTNAP2 knockout and wild-type mice. During social interactions with other mice, PV neuron activity increased in wild-type mice compared to interactions with a novel object, whereas this difference was not observed in CNTNAP2 knockout mice. Together, these results suggest that real-time modulation of E:I balance in the mouse prefrontal cortex can rescue social behavior deficits reminiscent of autism phenotypes.

Entities: Chemical

Mesh：

Substances：

Year: 2017 PMID： 28768803 PMCID： PMC5723386 DOI： 10.1126/scitranslmed.aah6733

Source DB: PubMed Journal: Sci Transl Med ISSN： 1946-6234 Impact factor: 17.956

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