Activation of pruritogenic TGR5, MrgprA3, and MrgprC11 on colon-innervating afferents induces visceral hypersensitivity
Joel Castro, Andrea M. Harrington, TinaMarie Lieu, Sonia Garcia-Caraballo, Jessica Maddern, Gudrun Schober, Tracey O’Donnell, Luke Grundy, Amanda L. Lumsden, Paul Miller, Andre Ghetti, Martin S. Steinhoff, Daniel P. Poole, Xinzhong Dong, Lin Chang, Nigel W. Bunnett, Stuart M. Brierley
Joel Castro, Andrea M. Harrington, TinaMarie Lieu, Sonia Garcia-Caraballo, Jessica Maddern, Gudrun Schober, Tracey O’Donnell, Luke Grundy, Amanda L. Lumsden, Paul Miller, Andre Ghetti, Martin S. Steinhoff, Daniel P. Poole, Xinzhong Dong, Lin Chang, Nigel W. Bunnett, Stuart M. Brierley
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Research Article Gastroenterology Neuroscience

Activation of pruritogenic TGR5, MrgprA3, and MrgprC11 on colon-innervating afferents induces visceral hypersensitivity

Abstract

Itch induces scratching that removes irritants from the skin, whereas pain initiates withdrawal or avoidance of tissue damage. While pain arises from both the skin and viscera, we investigated whether pruritogenic irritant mechanisms also function within visceral pathways. We show that subsets of colon-innervating sensory neurons in mice express, either individually or in combination, the pruritogenic receptors Tgr5 and the Mas-gene–related GPCRs Mrgpra3 and Mrgprc11. Agonists of these receptors activated subsets of colonic sensory neurons and evoked colonic afferent mechanical hypersensitivity via a TRPA1-dependent mechanism. In vivo intracolonic administration of individual TGR5, MrgprA3, or MrgprC11 agonists induced pronounced visceral hypersensitivity to colorectal distension. Coadministration of these agonists as an “itch cocktail” augmented hypersensitivity to colorectal distension and changed mouse behavior. These irritant mechanisms were maintained and enhanced in a model of chronic visceral hypersensitivity relevant to irritable bowel syndrome. Neurons from human dorsal root ganglia also expressed TGR5, as well as the human ortholog MrgprX1, and showed increased responsiveness to pruritogenic agonists in pathological states. These data support the existence of an irritant-sensing system in the colon that is a visceral representation of the itch pathways found in skin, thereby contributing to sensory disturbances accompanying common intestinal disorders.

Authors

Joel Castro, Andrea M. Harrington, TinaMarie Lieu, Sonia Garcia-Caraballo, Jessica Maddern, Gudrun Schober, Tracey O’Donnell, Luke Grundy, Amanda L. Lumsden, Paul Miller, Andre Ghetti, Martin S. Steinhoff, Daniel P. Poole, Xinzhong Dong, Lin Chang, Nigel W. Bunnett, Stuart M. Brierley

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Figure 9

Distinct and overlapping expression patterns for Tgr5, Mrgpra3, and Mrgprc11 in colon-innervating DRG neurons from CVH mice.

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Distinct and overlapping expression patterns for Tgr5, Mrgpra3, and Mrgp...
(A) Single-cell RT-PCR of 46 retrogradely traced colon-innervating DRG neurons from 4 CVH mice reveals that subpopulations express Tgr5 (20%), Mrgpra3 (39%), Mrgprc11 (74%), Trpv1 (65%), and Trpa1 (74%). (B) Donut plot showing expression and coexpression of genes encoding Tgr5, Mrgpra3, Mrgprc11, Trpv1, and Trpa1 in 46 individual retrogradely traced colon-innervating DRG neurons from CVH mice. Each color represents an individual gene, with expression marked by bold shading (Tgr5, outer ring; Trpa1, inner ring). Some CVH DRG neurons express all targets, while other neurons express combinations of targets. (C–E) Group data showing (C) Tgr5, (D) Mrgpra3, and (E) Mrgprc11 are expressed individually within subpopulations of colon-innervating DRG neurons and also coexpressed together in other subpopulations. For example, of the Tgr5 expressing colon-innervating DRG neurons from CVH mice, 56% coexpress Mrgpra3, and 33% coexpress Mrgprc11. Tgr5, Mrgpra3, and Mrgprc11 also heavily coexpress with Trpv1 and, in particular, Trpa1 in CVH states.