PIEZO2 in somatosensory neurons controls gastrointestinal transit

M. Rocio Servin-Vences; Ruby M. Lam; Alize Koolen; Yu Wang; Dimah N. Saade; Meaghan Loud; Halil Kacmaz; Suzanne Frausto; Yunxiao Zhang; Arthur Beyder; Kara L. Marshall; Carsten G. Bönnemann; Alexander T. Chesler; Ardem Patapoutian

doi:10.1016/j.cell.2023.07.006

PIEZO2 in somatosensory neurons controls gastrointestinal transit

M. Rocio Servin-Vences, Ruby M. Lam, Alize Koolen, Yu Wang, Dimah N. Saade, Meaghan Loud, Halil Kacmaz, Suzanne Frausto, Yunxiao Zhang, Arthur Beyder, Kara L. Marshall, Carsten G. Bönnemann, Alexander T. Chesler, Ardem Patapoutian

Gastroenterology and Hepatology

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

Abstract

The gastrointestinal tract is in a state of constant motion. These movements are tightly regulated by the presence of food and help digestion by mechanically breaking down and propelling gut content. Mechanical sensing in the gut is thought to be essential for regulating motility; however, the identity of the neuronal populations, the molecules involved, and the functional consequences of this sensation are unknown. Here, we show that humans lacking PIEZO2 exhibit impaired bowel sensation and motility. Piezo2 in mouse dorsal root, but not nodose ganglia is required to sense gut content, and this activity slows down food transit rates in the stomach, small intestine, and colon. Indeed, Piezo2 is directly required to detect colon distension in vivo. Our study unveils the mechanosensory mechanisms that regulate the transit of luminal contents throughout the gut, which is a critical process to ensure proper digestion, nutrient absorption, and waste removal.

Original language	English (US)
Pages (from-to)	3386-3399.e15
Journal	Cell
Volume	186
Issue number	16
DOIs	https://doi.org/10.1016/j.cell.2023.07.006
State	Published - Aug 3 2023

Keywords

PIEZO2 deficiency
Piezo2
dorsal root ganglia
gastrointestinal tract
gut motility
gut transit
interoception
mechanosensation
sensory neurons
spinal innervation

ASJC Scopus subject areas

General Biochemistry, Genetics and Molecular Biology

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10.1016/j.cell.2023.07.006

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@article{103a1ff7328941d6a0179b85b8c6da00,

title = "PIEZO2 in somatosensory neurons controls gastrointestinal transit",

abstract = "The gastrointestinal tract is in a state of constant motion. These movements are tightly regulated by the presence of food and help digestion by mechanically breaking down and propelling gut content. Mechanical sensing in the gut is thought to be essential for regulating motility; however, the identity of the neuronal populations, the molecules involved, and the functional consequences of this sensation are unknown. Here, we show that humans lacking PIEZO2 exhibit impaired bowel sensation and motility. Piezo2 in mouse dorsal root, but not nodose ganglia is required to sense gut content, and this activity slows down food transit rates in the stomach, small intestine, and colon. Indeed, Piezo2 is directly required to detect colon distension in vivo. Our study unveils the mechanosensory mechanisms that regulate the transit of luminal contents throughout the gut, which is a critical process to ensure proper digestion, nutrient absorption, and waste removal.",

keywords = "PIEZO2 deficiency, Piezo2, dorsal root ganglia, gastrointestinal tract, gut motility, gut transit, interoception, mechanosensation, sensory neurons, spinal innervation",

author = "Servin-Vences, {M. Rocio} and Lam, {Ruby M.} and Alize Koolen and Yu Wang and Saade, {Dimah N.} and Meaghan Loud and Halil Kacmaz and Suzanne Frausto and Yunxiao Zhang and Arthur Beyder and Marshall, {Kara L.} and B{\"o}nnemann, {Carsten G.} and Chesler, {Alexander T.} and Ardem Patapoutian",

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year = "2023",

month = aug,

day = "3",

doi = "10.1016/j.cell.2023.07.006",

language = "English (US)",

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AU - Servin-Vences, M. Rocio

AU - Lam, Ruby M.

AU - Koolen, Alize

AU - Wang, Yu

AU - Saade, Dimah N.

AU - Loud, Meaghan

AU - Kacmaz, Halil

AU - Frausto, Suzanne

AU - Zhang, Yunxiao

AU - Beyder, Arthur

AU - Marshall, Kara L.

AU - Bönnemann, Carsten G.

AU - Chesler, Alexander T.

AU - Patapoutian, Ardem

PY - 2023/8/3

Y1 - 2023/8/3

N2 - The gastrointestinal tract is in a state of constant motion. These movements are tightly regulated by the presence of food and help digestion by mechanically breaking down and propelling gut content. Mechanical sensing in the gut is thought to be essential for regulating motility; however, the identity of the neuronal populations, the molecules involved, and the functional consequences of this sensation are unknown. Here, we show that humans lacking PIEZO2 exhibit impaired bowel sensation and motility. Piezo2 in mouse dorsal root, but not nodose ganglia is required to sense gut content, and this activity slows down food transit rates in the stomach, small intestine, and colon. Indeed, Piezo2 is directly required to detect colon distension in vivo. Our study unveils the mechanosensory mechanisms that regulate the transit of luminal contents throughout the gut, which is a critical process to ensure proper digestion, nutrient absorption, and waste removal.

AB - The gastrointestinal tract is in a state of constant motion. These movements are tightly regulated by the presence of food and help digestion by mechanically breaking down and propelling gut content. Mechanical sensing in the gut is thought to be essential for regulating motility; however, the identity of the neuronal populations, the molecules involved, and the functional consequences of this sensation are unknown. Here, we show that humans lacking PIEZO2 exhibit impaired bowel sensation and motility. Piezo2 in mouse dorsal root, but not nodose ganglia is required to sense gut content, and this activity slows down food transit rates in the stomach, small intestine, and colon. Indeed, Piezo2 is directly required to detect colon distension in vivo. Our study unveils the mechanosensory mechanisms that regulate the transit of luminal contents throughout the gut, which is a critical process to ensure proper digestion, nutrient absorption, and waste removal.

KW - PIEZO2 deficiency

KW - Piezo2

KW - dorsal root ganglia

KW - gastrointestinal tract

KW - gut motility

KW - gut transit

KW - interoception

KW - mechanosensation

KW - sensory neurons

KW - spinal innervation

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SP - 3386-3399.e15

JO - Cell

JF - Cell

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ER -

PIEZO2 in somatosensory neurons controls gastrointestinal transit

Abstract

Keywords

ASJC Scopus subject areas

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