Literature DB >> 30305456

PIEZO2 mediates injury-induced tactile pain in mice and humans.

Marcin Szczot1, Jaquette Liljencrantz1, Nima Ghitani1, Arnab Barik1, Ruby Lam1, James H Thompson1, Diana Bharucha-Goebel2,3, Dimah Saade2, Aaron Necaise1, Sandra Donkervoort2, A Reghan Foley2, Taylor Gordon1, Laura Case1, M Catherine Bushnell1, Carsten G Bönnemann2, Alexander T Chesler4.   

Abstract

Tissue injury and inflammation markedly alter touch perception, making normally innocuous sensations become intensely painful. Although this sensory distortion, known as tactile allodynia, is one of the most common types of pain, the mechanism by which gentle mechanical stimulation becomes unpleasant remains enigmatic. The stretch-gated ion channel PIEZO2 has been shown to mediate light touch, vibration detection, and proprioception. However, the role of this ion channel in nociception and pain has not been resolved. Here, we examined the importance of Piezo2 in the cellular representation of mechanosensation using in vivo imaging in mice. Piezo2-knockout neurons were completely insensitive to gentle dynamic touch but still responded robustly to noxious pinch. During inflammation and after injury, Piezo2 remained essential for detection of gentle mechanical stimuli. We hypothesized that loss of PIEZO2 might eliminate tactile allodynia in humans. Our results show that individuals with loss-of-function mutations in PIEZO2 completely failed to develop sensitization and painful reactions to touch after skin inflammation. These findings provide insight into the basis for tactile allodynia, identify the PIEZO2 mechanoreceptor as an essential mediator of touch under inflammatory conditions, and suggest that this ion channel might be targeted for treating tactile allodynia.
Copyright © 2018 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works.

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Year:  2018        PMID: 30305456      PMCID: PMC6875774          DOI: 10.1126/scitranslmed.aat9892

Source DB:  PubMed          Journal:  Sci Transl Med        ISSN: 1946-6234            Impact factor:   17.956


  35 in total

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Journal:  Proc Natl Acad Sci U S A       Date:  2016-02-29       Impact factor: 11.205

2.  Amplified Mechanically Gated Currents in Distinct Subsets of Myelinated Sensory Neurons following In Vivo Inflammation of Skin and Muscle.

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4.  Time-Resolved Fast Mammalian Behavior Reveals the Complexity of Protective Pain Responses.

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Review 5.  An overview of animal models of pain: disease models and outcome measures.

Authors:  Nicholas S Gregory; Amber L Harris; Caleb R Robinson; Patrick M Dougherty; Perry N Fuchs; Kathleen A Sluka
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Authors:  Sanjeev S Ranade; Seung-Hyun Woo; Adrienne E Dubin; Rabih A Moshourab; Christiane Wetzel; Matt Petrus; Jayanti Mathur; Valérie Bégay; Bertrand Coste; James Mainquist; A J Wilson; Allain G Francisco; Kritika Reddy; Zhaozhu Qiu; John N Wood; Gary R Lewin; Ardem Patapoutian
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9.  A role for Piezo2 in EPAC1-dependent mechanical allodynia.

Authors:  N Eijkelkamp; J E Linley; J M Torres; L Bee; A H Dickenson; M Gringhuis; M S Minett; G S Hong; E Lee; U Oh; Y Ishikawa; F J Zwartkuis; J J Cox; J N Wood
Journal:  Nat Commun       Date:  2013       Impact factor: 14.919

10.  Control of mechanical pain hypersensitivity in mice through ligand-targeted photoablation of TrkB-positive sensory neurons.

Authors:  Rahul Dhandapani; Cynthia Mary Arokiaraj; Francisco J Taberner; Paola Pacifico; Sruthi Raja; Linda Nocchi; Carla Portulano; Federica Franciosa; Mariano Maffei; Ahmad Fawzi Hussain; Fernanda de Castro Reis; Luc Reymond; Emerald Perlas; Simone Garcovich; Stefan Barth; Kai Johnsson; Stefan G Lechner; Paul A Heppenstall
Journal:  Nat Commun       Date:  2018-04-24       Impact factor: 14.919
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  58 in total

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Review 7.  Epithelial-Neuronal Communication in the Colon: Implications for Visceral Pain.

Authors:  Sarah A Najjar; Brian M Davis; Kathryn M Albers
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Review 9.  Fight fire with fire: Neurobiology of capsaicin-induced analgesia for chronic pain.

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Review 10.  Uncovering the Cells and Circuits of Touch in Normal and Pathological Settings.

Authors:  Francie Moehring; Priyabrata Halder; Rebecca P Seal; Cheryl L Stucky
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