Multiple roles for NaV1.9 in visceral afferent activation by noxious mechanical and inflammatory stimuli

Chronic visceral pain affects millions of individuals worldwide, remains poorly understood, and current therapeutics are constrained by undesirable adverse events. Inflammation and distension of visceral organs are common causes of pain, suggesting drugs targeting these signalling pathways may be ef...

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Main Author: Hockley, James Robert Frederick
Published: Queen Mary, University of London 2014
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Online Access:https://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.667321
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spelling ndltd-bl.uk-oai-ethos.bl.uk-6673212019-02-27T03:17:03ZMultiple roles for NaV1.9 in visceral afferent activation by noxious mechanical and inflammatory stimuliHockley, James Robert Frederick2014Chronic visceral pain affects millions of individuals worldwide, remains poorly understood, and current therapeutics are constrained by undesirable adverse events. Inflammation and distension of visceral organs are common causes of pain, suggesting drugs targeting these signalling pathways may be efficacious visceral treatments. The voltage-gated sodium channel subtype 1.9 (NaV1.9) has been strongly associated with the development of inflammatory pain by rodent studies and more recently, by the identification of channelopathies in man. The aim of these studies was to investigate the role of NaV1.9 in visceral afferent signalling in the gut. Data from this thesis demonstrates that NaV1.9 is expressed by approximately half of gut-projecting rodent dorsal root ganglia sensory neurons. Consistent with significant expression in visceral afferents, NaV1.9 is required for normal mechanosensation, and for the direct excitation and mechanical hypersensitisation of mouse colonic afferents by inflammatory mediators applied as an inflammatory soup (bradykinin, ATP, histamine, PGE2, and 5HT) or derived from man (as inflammatory bowel disease tissue supernatants). Additionally, the importance of P2Y receptor activation in both rodent and human gut to algogenic purinergic signalling was demonstrated. Collectively, these results demonstrate that NaV1.9, is required for persistence of responses to intense mechanical stimulation, contributes to inflammatory mechanical hypersensitivity, and is essential for activation by noxious inflammatory mediators, including those from diseased human bowel. These findings suggest that NaV1.9 represents a high-value target for development of visceral analgesics.616.3MedicineQueen Mary, University of Londonhttps://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.667321http://qmro.qmul.ac.uk/xmlui/handle/123456789/9105Electronic Thesis or Dissertation
collection NDLTD
sources NDLTD
topic 616.3
Medicine
spellingShingle 616.3
Medicine
Hockley, James Robert Frederick
Multiple roles for NaV1.9 in visceral afferent activation by noxious mechanical and inflammatory stimuli
description Chronic visceral pain affects millions of individuals worldwide, remains poorly understood, and current therapeutics are constrained by undesirable adverse events. Inflammation and distension of visceral organs are common causes of pain, suggesting drugs targeting these signalling pathways may be efficacious visceral treatments. The voltage-gated sodium channel subtype 1.9 (NaV1.9) has been strongly associated with the development of inflammatory pain by rodent studies and more recently, by the identification of channelopathies in man. The aim of these studies was to investigate the role of NaV1.9 in visceral afferent signalling in the gut. Data from this thesis demonstrates that NaV1.9 is expressed by approximately half of gut-projecting rodent dorsal root ganglia sensory neurons. Consistent with significant expression in visceral afferents, NaV1.9 is required for normal mechanosensation, and for the direct excitation and mechanical hypersensitisation of mouse colonic afferents by inflammatory mediators applied as an inflammatory soup (bradykinin, ATP, histamine, PGE2, and 5HT) or derived from man (as inflammatory bowel disease tissue supernatants). Additionally, the importance of P2Y receptor activation in both rodent and human gut to algogenic purinergic signalling was demonstrated. Collectively, these results demonstrate that NaV1.9, is required for persistence of responses to intense mechanical stimulation, contributes to inflammatory mechanical hypersensitivity, and is essential for activation by noxious inflammatory mediators, including those from diseased human bowel. These findings suggest that NaV1.9 represents a high-value target for development of visceral analgesics.
author Hockley, James Robert Frederick
author_facet Hockley, James Robert Frederick
author_sort Hockley, James Robert Frederick
title Multiple roles for NaV1.9 in visceral afferent activation by noxious mechanical and inflammatory stimuli
title_short Multiple roles for NaV1.9 in visceral afferent activation by noxious mechanical and inflammatory stimuli
title_full Multiple roles for NaV1.9 in visceral afferent activation by noxious mechanical and inflammatory stimuli
title_fullStr Multiple roles for NaV1.9 in visceral afferent activation by noxious mechanical and inflammatory stimuli
title_full_unstemmed Multiple roles for NaV1.9 in visceral afferent activation by noxious mechanical and inflammatory stimuli
title_sort multiple roles for nav1.9 in visceral afferent activation by noxious mechanical and inflammatory stimuli
publisher Queen Mary, University of London
publishDate 2014
url https://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.667321
work_keys_str_mv AT hockleyjamesrobertfrederick multiplerolesfornav19invisceralafferentactivationbynoxiousmechanicalandinflammatorystimuli
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