Molecular and neural basis of pleasant touch sensation

Benlong Liu; Lina Qiao; Kun Liu; Juan Liu; Tyler J. Piccinni-Ash; Zhou Feng Chen

doi:10.1126/science.abn2479

Molecular and neural basis of pleasant touch sensation

Benlong Liu
, Lina Qiao
, Kun Liu
, Juan Liu
, Tyler J. Piccinni-Ash
, Zhou Feng Chen

Research output: Contribution to journal › Article › peer-review

42 Scopus citations

Abstract

Pleasant touch provides emotional and psychological support that helps mitigate social isolation and stress. However, the underlying mechanisms remain poorly understood. Using a pleasant touch-conditioned place preference (PT-CPP) test, we show that genetic ablation of spinal excitatory interneurons expressing prokineticin receptor 2 (PROKR2), or its ligand PROK2 in sensory neurons, abolishes PT-CPP without impairing pain and itch behaviors in mice. Mutant mice display profound impairments in stress response and prosocial behaviors. Moreover, PROKR2 neurons respond most vigorously to gentle stroking and encode reward value. Collectively, we identify PROK2 as a long-sought neuropeptide that encodes and transmits pleasant touch to spinal PROKR2 neurons. These findings may have important implications for elucidating mechanisms by which pleasant touch deprivation contributes to social avoidance behavior and mental disorders.

Original language	English
Pages (from-to)	483-491
Number of pages	9
Journal	Science
Volume	376
Issue number	6592
DOIs	https://doi.org/10.1126/science.abn2479
State	Published - Apr 29 2022

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title = "Molecular and neural basis of pleasant touch sensation",

abstract = "Pleasant touch provides emotional and psychological support that helps mitigate social isolation and stress. However, the underlying mechanisms remain poorly understood. Using a pleasant touch-conditioned place preference (PT-CPP) test, we show that genetic ablation of spinal excitatory interneurons expressing prokineticin receptor 2 (PROKR2), or its ligand PROK2 in sensory neurons, abolishes PT-CPP without impairing pain and itch behaviors in mice. Mutant mice display profound impairments in stress response and prosocial behaviors. Moreover, PROKR2 neurons respond most vigorously to gentle stroking and encode reward value. Collectively, we identify PROK2 as a long-sought neuropeptide that encodes and transmits pleasant touch to spinal PROKR2 neurons. These findings may have important implications for elucidating mechanisms by which pleasant touch deprivation contributes to social avoidance behavior and mental disorders.",

author = "Benlong Liu and Lina Qiao and Kun Liu and Juan Liu and Piccinni-Ash, \{Tyler J.\} and Chen, \{Zhou Feng\}",

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T1 - Molecular and neural basis of pleasant touch sensation

AU - Liu, Benlong

AU - Qiao, Lina

AU - Liu, Kun

AU - Liu, Juan

AU - Piccinni-Ash, Tyler J.

AU - Chen, Zhou Feng

PY - 2022/4/29

Y1 - 2022/4/29

N2 - Pleasant touch provides emotional and psychological support that helps mitigate social isolation and stress. However, the underlying mechanisms remain poorly understood. Using a pleasant touch-conditioned place preference (PT-CPP) test, we show that genetic ablation of spinal excitatory interneurons expressing prokineticin receptor 2 (PROKR2), or its ligand PROK2 in sensory neurons, abolishes PT-CPP without impairing pain and itch behaviors in mice. Mutant mice display profound impairments in stress response and prosocial behaviors. Moreover, PROKR2 neurons respond most vigorously to gentle stroking and encode reward value. Collectively, we identify PROK2 as a long-sought neuropeptide that encodes and transmits pleasant touch to spinal PROKR2 neurons. These findings may have important implications for elucidating mechanisms by which pleasant touch deprivation contributes to social avoidance behavior and mental disorders.

AB - Pleasant touch provides emotional and psychological support that helps mitigate social isolation and stress. However, the underlying mechanisms remain poorly understood. Using a pleasant touch-conditioned place preference (PT-CPP) test, we show that genetic ablation of spinal excitatory interneurons expressing prokineticin receptor 2 (PROKR2), or its ligand PROK2 in sensory neurons, abolishes PT-CPP without impairing pain and itch behaviors in mice. Mutant mice display profound impairments in stress response and prosocial behaviors. Moreover, PROKR2 neurons respond most vigorously to gentle stroking and encode reward value. Collectively, we identify PROK2 as a long-sought neuropeptide that encodes and transmits pleasant touch to spinal PROKR2 neurons. These findings may have important implications for elucidating mechanisms by which pleasant touch deprivation contributes to social avoidance behavior and mental disorders.

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DO - 10.1126/science.abn2479

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Molecular and neural basis of pleasant touch sensation

Abstract

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