Sensory Neuron-Specific GPCR Mrgprs Are Itch Receptors Mediating Chloroquine-Induced Pruritus

Qin Liu; Zongxiang Tang; Lenka Surdenikova; Seungil Kim; Kush N. Patel; Andrew Kim; Fei Ru; Yun Guan; Hao Jui Weng; Yixun Geng; Bradley J. Undem; Marian Kollarik; Zhou Feng Chen; David J. Anderson; Xinzhong Dong

doi:10.1016/j.cell.2009.11.034

Sensory Neuron-Specific GPCR Mrgprs Are Itch Receptors Mediating Chloroquine-Induced Pruritus

Qin Liu, Zongxiang Tang, Lenka Surdenikova, Seungil Kim, Kush N. Patel, Andrew Kim, Fei Ru, Yun Guan, Hao Jui Weng, Yixun Geng, Bradley J. Undem, Marian Kollarik, Zhou Feng Chen, David J. Anderson, Xinzhong Dong

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Abstract

The cellular and molecular mechanisms mediating histamine-independent itch in primary sensory neurons are largely unknown. Itch induced by chloroquine (CQ) is a common side effect of this widely used antimalarial drug. Here, we show that Mrgprs, a family of G protein-coupled receptors expressed exclusively in peripheral sensory neurons, function as itch receptors. Mice lacking a cluster of Mrgpr genes display significant deficits in itch induced by CQ but not histamine. CQ directly excites sensory neurons in an Mrgpr-dependent manner. CQ specifically activates mouse MrgprA3 and human MrgprX1. Loss- and gain-of-function studies demonstrate that MrgprA3 is required for CQ responsiveness in mice. Furthermore, MrgprA3-expressing neurons respond to histamine and coexpress gastrin-releasing peptide, a peptide involved in itch sensation, and MrgprC11. Activation of these neurons with the MrgprC11-specific agonist BAM8-22 induces itch in wild-type but not mutant mice. Therefore, Mrgprs may provide molecular access to itch-selective neurons and constitute novel targets for itch therapeutics.

Original language	English
Pages (from-to)	1353-1365
Number of pages	13
Journal	Cell
Volume	139
Issue number	7
DOIs	https://doi.org/10.1016/j.cell.2009.11.034
Publication status	Published - Dec 24 2009

Keywords

HUMDISEASE
MOLNEURO

ASJC Scopus subject areas

General Biochemistry,Genetics and Molecular Biology

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10.1016/j.cell.2009.11.034

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@article{323f6827f69d4a959e0b936d4a447815,

title = "Sensory Neuron-Specific GPCR Mrgprs Are Itch Receptors Mediating Chloroquine-Induced Pruritus",

abstract = "The cellular and molecular mechanisms mediating histamine-independent itch in primary sensory neurons are largely unknown. Itch induced by chloroquine (CQ) is a common side effect of this widely used antimalarial drug. Here, we show that Mrgprs, a family of G protein-coupled receptors expressed exclusively in peripheral sensory neurons, function as itch receptors. Mice lacking a cluster of Mrgpr genes display significant deficits in itch induced by CQ but not histamine. CQ directly excites sensory neurons in an Mrgpr-dependent manner. CQ specifically activates mouse MrgprA3 and human MrgprX1. Loss- and gain-of-function studies demonstrate that MrgprA3 is required for CQ responsiveness in mice. Furthermore, MrgprA3-expressing neurons respond to histamine and coexpress gastrin-releasing peptide, a peptide involved in itch sensation, and MrgprC11. Activation of these neurons with the MrgprC11-specific agonist BAM8-22 induces itch in wild-type but not mutant mice. Therefore, Mrgprs may provide molecular access to itch-selective neurons and constitute novel targets for itch therapeutics.",

keywords = "HUMDISEASE, MOLNEURO",

author = "Qin Liu and Zongxiang Tang and Lenka Surdenikova and Seungil Kim and Patel, {Kush N.} and Andrew Kim and Fei Ru and Yun Guan and Weng, {Hao Jui} and Yixun Geng and Undem, {Bradley J.} and Marian Kollarik and Chen, {Zhou Feng} and Anderson, {David J.} and Xinzhong Dong",

note = "Funding Information: We thank Shirley Pease and the staff of the Caltech transgenic mouse facility for assistance with embryonic stem cell manipulation. We also thank M. Ringkamp and R. Meyer for helpful comments on the manuscript. The work was supported by an Alfred P. Sloan Neuroscience grant, a Whitehall Foundation grant, a Blaustein Pain Research Fund award, and grants from the National Institutes of Health to X.D. (NS054791), B.J.U. (HL038095), M.K. (DK074480), Z.F.C. (AR056318), and D.J.A. (NS048499). L.S. is supported by VEGA 1/0018/08. D.J.A and X.D. are an Investigator and an Early Career Scientist of the Howard Hughes Medical Institute, respectively. Copyright: Copyright 2010 Elsevier B.V., All rights reserved.",

year = "2009",

month = dec,

day = "24",

doi = "10.1016/j.cell.2009.11.034",

language = "English",

volume = "139",

pages = "1353--1365",

journal = "Cell",

issn = "0092-8674",

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T1 - Sensory Neuron-Specific GPCR Mrgprs Are Itch Receptors Mediating Chloroquine-Induced Pruritus

AU - Liu, Qin

AU - Tang, Zongxiang

AU - Surdenikova, Lenka

AU - Kim, Seungil

AU - Patel, Kush N.

AU - Kim, Andrew

AU - Ru, Fei

AU - Guan, Yun

AU - Weng, Hao Jui

AU - Geng, Yixun

AU - Undem, Bradley J.

AU - Kollarik, Marian

AU - Chen, Zhou Feng

AU - Anderson, David J.

AU - Dong, Xinzhong

N1 - Funding Information: We thank Shirley Pease and the staff of the Caltech transgenic mouse facility for assistance with embryonic stem cell manipulation. We also thank M. Ringkamp and R. Meyer for helpful comments on the manuscript. The work was supported by an Alfred P. Sloan Neuroscience grant, a Whitehall Foundation grant, a Blaustein Pain Research Fund award, and grants from the National Institutes of Health to X.D. (NS054791), B.J.U. (HL038095), M.K. (DK074480), Z.F.C. (AR056318), and D.J.A. (NS048499). L.S. is supported by VEGA 1/0018/08. D.J.A and X.D. are an Investigator and an Early Career Scientist of the Howard Hughes Medical Institute, respectively. Copyright: Copyright 2010 Elsevier B.V., All rights reserved.

PY - 2009/12/24

Y1 - 2009/12/24

N2 - The cellular and molecular mechanisms mediating histamine-independent itch in primary sensory neurons are largely unknown. Itch induced by chloroquine (CQ) is a common side effect of this widely used antimalarial drug. Here, we show that Mrgprs, a family of G protein-coupled receptors expressed exclusively in peripheral sensory neurons, function as itch receptors. Mice lacking a cluster of Mrgpr genes display significant deficits in itch induced by CQ but not histamine. CQ directly excites sensory neurons in an Mrgpr-dependent manner. CQ specifically activates mouse MrgprA3 and human MrgprX1. Loss- and gain-of-function studies demonstrate that MrgprA3 is required for CQ responsiveness in mice. Furthermore, MrgprA3-expressing neurons respond to histamine and coexpress gastrin-releasing peptide, a peptide involved in itch sensation, and MrgprC11. Activation of these neurons with the MrgprC11-specific agonist BAM8-22 induces itch in wild-type but not mutant mice. Therefore, Mrgprs may provide molecular access to itch-selective neurons and constitute novel targets for itch therapeutics.

AB - The cellular and molecular mechanisms mediating histamine-independent itch in primary sensory neurons are largely unknown. Itch induced by chloroquine (CQ) is a common side effect of this widely used antimalarial drug. Here, we show that Mrgprs, a family of G protein-coupled receptors expressed exclusively in peripheral sensory neurons, function as itch receptors. Mice lacking a cluster of Mrgpr genes display significant deficits in itch induced by CQ but not histamine. CQ directly excites sensory neurons in an Mrgpr-dependent manner. CQ specifically activates mouse MrgprA3 and human MrgprX1. Loss- and gain-of-function studies demonstrate that MrgprA3 is required for CQ responsiveness in mice. Furthermore, MrgprA3-expressing neurons respond to histamine and coexpress gastrin-releasing peptide, a peptide involved in itch sensation, and MrgprC11. Activation of these neurons with the MrgprC11-specific agonist BAM8-22 induces itch in wild-type but not mutant mice. Therefore, Mrgprs may provide molecular access to itch-selective neurons and constitute novel targets for itch therapeutics.

KW - HUMDISEASE

KW - MOLNEURO

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SN - 0092-8674

VL - 139

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JO - Cell

JF - Cell

IS - 7

ER -

Sensory Neuron-Specific GPCR Mrgprs Are Itch Receptors Mediating Chloroquine-Induced Pruritus

Abstract

Keywords

ASJC Scopus subject areas

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