神经科学
神经发生
体感系统
黑质
致密部
机械转化
中央后回
感觉系统
多巴胺
触觉知觉
认知
生物
齿状回
心理学
感知
刺激
搅打动物
多巴胺能
感觉刺激疗法
默克尔细胞
刺激(心理学)
认知功能衰退
神经可塑性
室下区
嗅
感觉
筒状皮质
皮质(解剖学)
神经假体
多巴胺能途径
触觉辨别
作者
Xing Luo,Qiang Liu,Dezhe Qin,Min Wang,Weixiang Guo
标识
DOI:10.1073/pnas.2510374122
摘要
The tactile system empowers us to act on and interact with the changes of the external environment. In rodents, tactile sensation, a fundamental sense, is largely mediated via the vibrissae and the barrel cortex. However, it remains unclear how tactile perception reshape the brain when exploring a novel environment. Here, we showed that exposure to an enriched environment (EE) failed to enhance adult neurogenesis and cognition in the mice with defective touch perception due to loss of a mechanotransduction channel Piezo2 in Merkel cells. Moreover, we found an EE-activated neuraxis, in which the dentate gyrus received tactile input through a circuit that originated from the somatosensory cortex (S1) and relayed via dopaminergic neurons of the substantia nigra pars compacta (SNc). Defective touch perception diminished the S1 to SNc afferent, thereby reducing dopamine release. Notably, stimulation of the S1 to SNc afferent restored EE-induced adult neurogenesis and cognition in the mice with defective touch perception. Therefore, our study highlighted the important role of intact tactile processing in brain function.
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