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Tactile modulation of memory and anxiety requires dentate granule cells along the dorsoventral axis

Chi Wang, Hui Liu, Kun Li, Zhenhua Wu, Chen Wu, Jing-Ying Yu, Qian Gong, Ping Fang, Xingxing Wang, Shumin Duan, Hao Wang, Yan Gu, Ji Hu, Bing‐Xing Pan, Mathias V. Schmidt, Yijun Liu, Xiaodong Wang, Xiaodong Wang, Xiaodong Wang

2020Nature Communications55 citationsDOIOpen Access PDF

Abstract

Touch can positively influence cognition and emotion, but the underlying mechanisms remain unclear. Here, we report that tactile experience enrichment improves memory and alleviates anxiety by remodeling neurons along the dorsoventral axis of the dentate gyrus (DG) in adult mice. Tactile enrichment induces differential activation and structural modification of neurons in the dorsal and ventral DG, and increases the presynaptic input from the lateral entorhinal cortex (LEC), which is reciprocally connected with the primary somatosensory cortex (S1), to tactile experience-activated DG neurons. Chemogenetic activation of tactile experience-tagged dorsal and ventral DG neurons enhances memory and reduces anxiety respectively, whereas inactivation of these neurons or S1-innervated LEC neurons abolishes the beneficial effects of tactile enrichment. Moreover, adulthood tactile enrichment attenuates early-life stress-induced memory deficits and anxiety-related behavior. Our findings demonstrate that enriched tactile experience retunes the pathway from S1 to DG and enhances DG neuronal plasticity to modulate cognition and emotion.

Topics & Concepts

Dentate gyrusNeuroscienceSomatosensory systemEntorhinal cortexNeuroplasticityPsychologyEnvironmental enrichmentHippocampusBiologyNeural dynamics and brain functionOlfactory and Sensory Function StudiesSleep and Wakefulness Research
Tactile modulation of memory and anxiety requires dentate granule cells along the dorsoventral axis | Litcius