Selective Role for TRPV4 Ion Channels in Visceral Sensory Pathways

Background & Aims: Although there are many candidates as molecular mechanotransducers, so far there has been no evidence for molecular specialization of visceral afferents. Here, we show that colonic afferents express a specific molecular transducer that underlies their specialized mechanosensor...

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Veröffentlicht in:	Gastroenterology (New York, N.Y. 1943) N.Y. 1943), 2008-06, Vol.134 (7), p.2059-2069
Hauptverfasser:	Brierley, Stuart M, Page, Amanda J, Hughes, Patrick A, Adam, Birgit, Liebregts, Tobias, Cooper, Nicole J, Holtmann, Gerald, Liedtke, Wolfgang, Blackshaw, L. Ashley
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Sprache:	eng
Schlagworte:	Afferent Pathways - metabolism Animals Behavior, Animal Calcitonin Gene-Related Peptide - metabolism Catheterization Colon - innervation Enteric Nervous System - metabolism Enteric Nervous System - physiopathology Female Gastroenterology and Hepatology Humans Inflammatory Bowel Diseases - complications Inflammatory Bowel Diseases - metabolism Inflammatory Bowel Diseases - physiopathology Male Mechanoreceptors - metabolism Mechanotransduction, Cellular Mice Mice, Knockout Models, Animal Neurons, Afferent - metabolism Pain - etiology Pain - metabolism Pain - physiopathology Pain Measurement Pain Threshold RNA, Messenger - metabolism Sensation TRPV Cation Channels - deficiency TRPV Cation Channels - genetics TRPV Cation Channels - metabolism
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container_end_page	2069
container_issue	7
container_start_page	2059
container_title	Gastroenterology (New York, N.Y. 1943)
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creator	Brierley, Stuart M Page, Amanda J Hughes, Patrick A Adam, Birgit Liebregts, Tobias Cooper, Nicole J Holtmann, Gerald Liedtke, Wolfgang Blackshaw, L. Ashley
description	Background & Aims: Although there are many candidates as molecular mechanotransducers, so far there has been no evidence for molecular specialization of visceral afferents. Here, we show that colonic afferents express a specific molecular transducer that underlies their specialized mechanosensory function: the transient receptor potential channel, vanilloid 4 (TRPV4). Methods: We found TRPV4 mRNA is highly enriched in colonic sensory neurons compared with other visceral and somatic sensory neurons. TRPV4 protein was found in colonic nerve fibers from patients with inflammatory bowel disease, and it colocalized in a subset of fibers with the sensory neuropeptide CGRP in mice. We characterized the responses of 8 subtypes of vagal, splanchnic, and pelvic mechanoreceptors. Results: Mechanosensory responses of colonic serosal and mesenteric afferents were enhanced by a TRPV4 agonist and dramatically reduced by targeted deletion of TRPV4 or by a TRP antagonist. Other subtypes of vagal and pelvic afferents, by contrast, were unaffected by these interventions. The behavioral responses to noxious colonic distention were also substantially reduced in mice lacking TRPV4. Conclusions: These data indicate that TRPV4 contributes to mechanically evoked visceral pain, with relevance to human disease. In view of its distribution in favor of specific populations of visceral afferents, we propose that TRPV4 may present a selective novel target for the reduction of visceral pain, which is an important opportunity in the absence of current treatments.
doi_str_mv	10.1053/j.gastro.2008.01.074
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Ashley</creator><creatorcontrib>Brierley, Stuart M ; Page, Amanda J ; Hughes, Patrick A ; Adam, Birgit ; Liebregts, Tobias ; Cooper, Nicole J ; Holtmann, Gerald ; Liedtke, Wolfgang ; Blackshaw, L. Ashley</creatorcontrib><description>Background & Aims: Although there are many candidates as molecular mechanotransducers, so far there has been no evidence for molecular specialization of visceral afferents. Here, we show that colonic afferents express a specific molecular transducer that underlies their specialized mechanosensory function: the transient receptor potential channel, vanilloid 4 (TRPV4). Methods: We found TRPV4 mRNA is highly enriched in colonic sensory neurons compared with other visceral and somatic sensory neurons. TRPV4 protein was found in colonic nerve fibers from patients with inflammatory bowel disease, and it colocalized in a subset of fibers with the sensory neuropeptide CGRP in mice. We characterized the responses of 8 subtypes of vagal, splanchnic, and pelvic mechanoreceptors. Results: Mechanosensory responses of colonic serosal and mesenteric afferents were enhanced by a TRPV4 agonist and dramatically reduced by targeted deletion of TRPV4 or by a TRP antagonist. Other subtypes of vagal and pelvic afferents, by contrast, were unaffected by these interventions. The behavioral responses to noxious colonic distention were also substantially reduced in mice lacking TRPV4. Conclusions: These data indicate that TRPV4 contributes to mechanically evoked visceral pain, with relevance to human disease. 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Ashley</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Selective Role for TRPV4 Ion Channels in Visceral Sensory Pathways</atitle><jtitle>Gastroenterology (New York, N.Y. 1943)</jtitle><addtitle>Gastroenterology</addtitle><date>2008-06-01</date><risdate>2008</risdate><volume>134</volume><issue>7</issue><spage>2059</spage><epage>2069</epage><pages>2059-2069</pages><issn>0016-5085</issn><eissn>1528-0012</eissn><abstract>Background & Aims: Although there are many candidates as molecular mechanotransducers, so far there has been no evidence for molecular specialization of visceral afferents. Here, we show that colonic afferents express a specific molecular transducer that underlies their specialized mechanosensory function: the transient receptor potential channel, vanilloid 4 (TRPV4). Methods: We found TRPV4 mRNA is highly enriched in colonic sensory neurons compared with other visceral and somatic sensory neurons. TRPV4 protein was found in colonic nerve fibers from patients with inflammatory bowel disease, and it colocalized in a subset of fibers with the sensory neuropeptide CGRP in mice. We characterized the responses of 8 subtypes of vagal, splanchnic, and pelvic mechanoreceptors. Results: Mechanosensory responses of colonic serosal and mesenteric afferents were enhanced by a TRPV4 agonist and dramatically reduced by targeted deletion of TRPV4 or by a TRP antagonist. Other subtypes of vagal and pelvic afferents, by contrast, were unaffected by these interventions. The behavioral responses to noxious colonic distention were also substantially reduced in mice lacking TRPV4. Conclusions: These data indicate that TRPV4 contributes to mechanically evoked visceral pain, with relevance to human disease. 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subjects	Afferent Pathways - metabolism Animals Behavior, Animal Calcitonin Gene-Related Peptide - metabolism Catheterization Colon - innervation Enteric Nervous System - metabolism Enteric Nervous System - physiopathology Female Gastroenterology and Hepatology Humans Inflammatory Bowel Diseases - complications Inflammatory Bowel Diseases - metabolism Inflammatory Bowel Diseases - physiopathology Male Mechanoreceptors - metabolism Mechanotransduction, Cellular Mice Mice, Knockout Models, Animal Neurons, Afferent - metabolism Pain - etiology Pain - metabolism Pain - physiopathology Pain Measurement Pain Threshold RNA, Messenger - metabolism Sensation TRPV Cation Channels - deficiency TRPV Cation Channels - genetics TRPV Cation Channels - metabolism
title	Selective Role for TRPV4 Ion Channels in Visceral Sensory Pathways
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