Ex vivo study of human visceral nociceptors

McGuire, Cian; Boundouki, George; Hockley, James R.F.; Reed, David E.; Cibert-Goton, Vincent; Peiris, Madusha; Kung, Victor; Broad, John; Aziz, Qasim; Chan, Christopher L.; Ahmed, Shafi; Thaha, Mohamed A.; Sanger, Gareth J.; Blackshaw, L. Ashley; Knowles, Charles H.; Bulmer, D

doi:10.1136/gutjnl-2016-311629

Cited by 41 publications

(47 citation statements)

References 49 publications

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“…28 Using surgically resected bowel tissues, we recorded mesenteric nerve activity to repeat application of bradykinin. A concentration of 1 µM bradykinin was used as this has previously been shown robustly excite human visceral afferent fibres in ex vivo electrophysiological recordings.…”

Section: Resultsmentioning

confidence: 99%

Peripheral K_V7 channels regulate visceral sensory function in mouse and human colon

et al. 2017

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BackgroundChronic visceral pain is a defining symptom of many gastrointestinal disorders. The KV7 family (KV7.1–KV7.5) of voltage-gated potassium channels mediates the M current that regulates excitability in peripheral sensory nociceptors and central pain pathways. Here, we use a combination of immunohistochemistry, gut-nerve electrophysiological recordings in both mouse and human tissues, and single-cell qualitative real-time polymerase chain reaction of gut-projecting sensory neurons, to investigate the contribution of peripheral KV7 channels to visceral nociception.ResultsImmunohistochemical staining of mouse colon revealed labelling of KV7 subtypes (KV7.3 and KV7.5) with CGRP around intrinsic enteric neurons of the myenteric plexuses and within extrinsic sensory fibres along mesenteric blood vessels. Treatment with the KV7 opener retigabine almost completely abolished visceral afferent firing evoked by the algogen bradykinin, in agreement with significant co-expression of mRNA transcripts by single-cell qualitative real-time polymerase chain reaction for KCNQ subtypes and the B2 bradykinin receptor in retrogradely labelled extrinsic sensory neurons from the colon. Retigabine also attenuated responses to mechanical stimulation of the bowel following noxious distension (0–80 mmHg) in a concentration-dependent manner, whereas the KV7 blocker XE991 potentiated such responses. In human bowel tissues, KV7.3 and KV7.5 were expressed in neuronal varicosities co-labelled with synaptophysin and CGRP, and retigabine inhibited bradykinin-induced afferent activation in afferent recordings from human colon.ConclusionsWe show that KV7 channels contribute to the sensitivity of visceral sensory neurons to noxious chemical and mechanical stimuli in both mouse and human gut tissues. As such, peripherally restricted KV7 openers may represent a viable therapeutic modality for the treatment of gastrointestinal pathologies.

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Section: Resultsmentioning

confidence: 99%

Peripheral K_V7 channels regulate visceral sensory function in mouse and human colon

et al. 2017

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“…Accumulating evidence points toward a role of TRPV4 in mechanosensation . Under basal conditions, TRPV4 is thought to primarily sense high threshold mechanical stimuli .…”

Section: Trpv4mentioning

confidence: 92%

Review article: transient receptor potential channels as possible therapeutic targets in irritable bowel syndrome

Beckers

Weerts

Helyes

et al. 2017

Aliment Pharmacol Ther

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“…Recent data relying on an ex vivo preparation of human serosal fibres also showed robust expression of TRPV4 channels. Mechanosensitivity in these fibres was reduced by treatment with the TRPV4 channel antagonist HC‐067047 (McGuire et al, ).…”

Section: Trpv4 Channels and Painmentioning

confidence: 99%

Targeting nociceptive transient receptor potential channels to treat chronic pain: current state of the field

Moran¹,

Szállaśi

2017

British J Pharmacology

170

123

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Ex vivo study of human visceral nociceptors

Cited by 41 publications

References 49 publications

Peripheral K_V7 channels regulate visceral sensory function in mouse and human colon

Peripheral K_V7 channels regulate visceral sensory function in mouse and human colon

Review article: transient receptor potential channels as possible therapeutic targets in irritable bowel syndrome

Targeting nociceptive transient receptor potential channels to treat chronic pain: current state of the field

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Ex vivo study of human visceral nociceptors

Cited by 41 publications

References 49 publications

Peripheral KV7 channels regulate visceral sensory function in mouse and human colon

Peripheral KV7 channels regulate visceral sensory function in mouse and human colon

Review article: transient receptor potential channels as possible therapeutic targets in irritable bowel syndrome

Targeting nociceptive transient receptor potential channels to treat chronic pain: current state of the field

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Peripheral K_V7 channels regulate visceral sensory function in mouse and human colon

Peripheral K_V7 channels regulate visceral sensory function in mouse and human colon