Literature DB >> 30236284

Kappa Opioid Receptor Distribution and Function in Primary Afferents.

Lindsey M Snyder1, Michael C Chiang1, Emanuel Loeza-Alcocer1, Yu Omori1, Junichi Hachisuka1, Tayler D Sheahan1, Jenna R Gale1, Peter C Adelman1, Elizabeth I Sypek2, Stephanie A Fulton1, Robert L Friedman1, Margaret C Wright1, Melissa Giraldo Duque1, Yeon Sun Lee3, Zeyu Hu1, Huizhen Huang4, Xiaoyun Cai1, Kimberly A Meerschaert1, Vidhya Nagarajan1, Toshiro Hirai5, Gregory Scherrer6, Daniel H Kaplan5, Frank Porreca7, Brian M Davis1, Michael S Gold8, H Richard Koerber9, Sarah E Ross10.   

Abstract

Primary afferents are known to be inhibited by kappa opioid receptor (KOR) signaling. However, the specific types of somatosensory neurons that express KOR remain unclear. Here, using a newly developed KOR-cre knockin allele, viral tracing, single-cell RT-PCR, and ex vivo recordings, we show that KOR is expressed in several populations of primary afferents: a subset of peptidergic sensory neurons, as well as low-threshold mechanoreceptors that form lanceolate or circumferential endings around hair follicles. We find that KOR acts centrally to inhibit excitatory neurotransmission from KOR-cre afferents in laminae I and III, and this effect is likely due to KOR-mediated inhibition of Ca2+ influx, which we observed in sensory neurons from both mouse and human. In the periphery, KOR signaling inhibits neurogenic inflammation and nociceptor sensitization by inflammatory mediators. Finally, peripherally restricted KOR agonists selectively reduce pain and itch behaviors, as well as mechanical hypersensitivity associated with a surgical incision. These experiments provide a rationale for the use of peripherally restricted KOR agonists for therapeutic treatment.
Copyright © 2018 Elsevier Inc. All rights reserved.

Entities:  

Keywords:  DRG; Oprk1; dorsal root ganglia; dynorphin; human; itch; mouse; nalfurafine; pain; primary afferents

Mesh:

Substances:

Year:  2018        PMID: 30236284      PMCID: PMC6300132          DOI: 10.1016/j.neuron.2018.08.044

Source DB:  PubMed          Journal:  Neuron        ISSN: 0896-6273            Impact factor:   17.173


  74 in total

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Authors:  P W Reeh
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Authors:  Santosh K Mishra; Mark A Hoon
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Authors:  Sabrina L McIlwrath; Jeffrey J Lawson; Collene E Anderson; Kathryn M Albers; H Richard Koerber
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8.  Characterization of a rat model of incisional pain.

Authors:  Timothy J Brennan; Erik P Vandermeulen; G F Gebhart
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10.  Injury-induced mechanical hypersensitivity requires C-low threshold mechanoreceptors.

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