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      Targeting TRP Channels For Novel Migraine Therapeutics

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          Abstract

          Migraine is increasingly understood to be a disorder of the brain. In susceptible individuals, a variety of “triggers” may influence altered central excitability, resulting in the activation and sensitization of trigeminal nociceptive afferents surrounding blood vessels (i.e., the trigeminovascular system), leading to migraine pain. Transient receptor potential (TRP) channels are expressed in a subset of dural afferents, including those containing calcitonin gene related peptide (CGRP). Activation of TRP channels promotes excitation of nociceptive afferent fibers and potentially lead to pain. In addition to pain, allodynia to mechanical and cold stimuli can result from sensitization of both peripheral afferents and of central pain pathways. TRP channels respond to a variety of endogenous conditions including chemical mediators and low pH. These channels can be activated by exogenous stimuli including a wide range of chemical and environmental irritants, some of which have been demonstrated to trigger migraine in humans. Activation of TRP channels can elicit CGRP release, and blocking the effects of CGRP through receptor antagonism or antibody strategies has been demonstrated to be effective in the treatment of migraine. Identification of approaches that can prevent activation of TRP channels provides an additional novel strategy for discovery of migraine therapeutics.

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          Structure of the TRPV1 ion channel determined by electron cryo-microscopy

          Maofu Liao, Erhu Cao, David Julius (2013)
          Transient receptor potential (TRP) channels are sensors for a wide range of cellular and environmental signals, but elucidating how these channels respond to physical and chemical stimuli has been hampered by a lack of detailed structural information. Here, we exploit advances in electron cryo-microscopy to determine the structure of a mammalian TRP channel, TRPV1, at 3.4Å resolution, breaking the side-chain resolution barrier for membrane proteins without crystallization. Like voltage-gated channels, TRPV1 exhibits four-fold symmetry around a central ion pathway formed by transmembrane helices S5–S6 and the intervening pore loop, which is flanked by S1–S4 voltage sensor-like domains. TRPV1 has a wide extracellular ‘mouth’ with short selectivity filter. The conserved ‘TRP domain’ interacts with the S4–S5 linker, consistent with its contribution to allosteric modulation. Subunit organization is facilitated by interactions among cytoplasmic domains, including N-terminal ankyrin repeats. These observations provide a structural blueprint for understanding unique aspects of TRP channel function.
          Article 0 comments Cited 589 times – based on 0 reviews     Review now
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            TRPA1 mediates the inflammatory actions of environmental irritants and proalgesic agents.

            Diana Bautista, Sven-Eric Jordt, Tetsuro Nikai (2006)
            TRPA1 is an excitatory ion channel targeted by pungent irritants from mustard and garlic. TRPA1 has been proposed to function in diverse sensory processes, including thermal (cold) nociception, hearing, and inflammatory pain. Using TRPA1-deficient mice, we now show that this channel is the sole target through which mustard oil and garlic activate primary afferent nociceptors to produce inflammatory pain. TRPA1 is also targeted by environmental irritants, such as acrolein, that account for toxic and inflammatory actions of tear gas, vehicle exhaust, and metabolic byproducts of chemotherapeutic agents. TRPA1-deficient mice display normal cold sensitivity and unimpaired auditory function, suggesting that this channel is not required for the initial detection of noxious cold or sound. However, TRPA1-deficient mice exhibit pronounced deficits in bradykinin-evoked nociceptor excitation and pain hypersensitivity. Thus, TRPA1 is an important component of the transduction machinery through which environmental irritants and endogenous proalgesic agents depolarize nociceptors to elicit inflammatory pain.
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              TRPV1 structures in distinct conformations reveal mechanisms of activation

              Erhu Cao, Maofu Liao, Yifan Cheng (2013)
              TRP channels are polymodal signal detectors that respond to a wide range of physical and chemical stimuli. Elucidating how these channels integrate and convert physiological signals into channel opening is essential to understanding how they regulate cell excitability under normal and pathophysiological conditions. Here we exploit pharmacological probes (a peptide toxin and small vanilloid agonists) to determine structures of two activated states of the capsaicin receptor, TRPV1. A domain (S1-S4) that moves during activation of voltage-gated channels remains stationary in TRPV1, highlighting differences in gating mechanisms for these structurally related channel superfamilies. TRPV1 opening is associated with major structural rearrangements in the outer pore, including the pore helix and selectivity filter, as well as pronounced dilation of a hydrophobic constriction at the lower gate, suggesting a dual gating mechanism. Allosteric coupling between upper and lower gates may account for rich physiologic modulation exhibited by TRPV1 and other TRP channels.
              Article 0 comments Cited 377 times – based on 0 reviews     Review now
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                Author and article information

                Journal
                Journal ID (nlm-ta): ACS Chem Neurosci
                Journal ID (iso-abbrev): ACS Chem Neurosci
                Journal ID (publisher-id): cn
                Journal ID (coden): acncdm
                Title: ACS Chemical Neuroscience
                Publisher: American Chemical Society
                ISSN (Print): 1948-7193
                ISSN (Electronic): 1948-7193
                Publication date PMC-release: 20 August 2015
                Publication date (Electronic): 20 August 2014
                Publication date Collection: 19 November 2014
                Volume: 5
                Issue: 11 , TRPs as Probes and Medications for CNS Disorders
                Pages: 1085-1096
                Affiliations
                []School of Behavioral and Brain Sciences, University of Texas at Dallas , Dallas, Texas 75080, United States
                []Department of Pharmacology, University of Washington , Seattle, Washington 98195, United States
                [§ ]Department of Pharmacology, University of Arizona College of Medicine , Tucson, Arizona 85724, United States
                []Department of Neurology, Mayo Clinic Arizona , Phoenix, Arizona 85054, United States
                Author notes
                [* ]Telephone: 520-626-7421. Fax: 520-626-4182. E-mail: frankp@ 123456u.arizona.edu .
                Article
                DOI: 10.1021/cn500083e
                PMC ID: 4240253
                PubMed ID: 25138211
                SO-VID: 4e5f9a79-99d8-4187-b182-97c770212465
                Copyright © Copyright © 2014 American Chemical Society
                License:

                This is an open access article published under an ACS AuthorChoice License, which permits copying and redistribution of the article or any adaptations for non-commercial purposes.

                History
                Date received : 15 April 2014
                Date revision received : 22 July 2014
                Funding
                National Institutes of Health, United States
                Categories
                Subject: Review
                Custom metadata
                document-id-old-9 cn500083e
                document-id-new-14 cn-2014-00083e
                ccc-price

                ScienceOpen disciplines: Neurosciences
                Keywords: trp channels,migraine,trpv1,trpv4,trpm8,trpa1
                Data availability:
                ScienceOpen disciplines: Neurosciences
                Keywords: trp channels, migraine, trpv1, trpv4, trpm8, trpa1

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