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

Author

Listed:
  • Rahul Dhandapani

    (Epigenetics and Neurobiology Unit, EMBL Rome
    Molecular Medicine Partnership Unit (MMPU))

  • Cynthia Mary Arokiaraj

    (Epigenetics and Neurobiology Unit, EMBL Rome
    Molecular Medicine Partnership Unit (MMPU))

  • Francisco J. Taberner

    (Heidelberg University)

  • Paola Pacifico

    (Epigenetics and Neurobiology Unit, EMBL Rome
    Molecular Medicine Partnership Unit (MMPU))

  • Sruthi Raja

    (Epigenetics and Neurobiology Unit, EMBL Rome
    Molecular Medicine Partnership Unit (MMPU))

  • Linda Nocchi

    (Epigenetics and Neurobiology Unit, EMBL Rome
    Molecular Medicine Partnership Unit (MMPU))

  • Carla Portulano

    (Epigenetics and Neurobiology Unit, EMBL Rome
    Molecular Medicine Partnership Unit (MMPU))

  • Federica Franciosa

    (Epigenetics and Neurobiology Unit, EMBL Rome
    Molecular Medicine Partnership Unit (MMPU))

  • Mariano Maffei

    (Epigenetics and Neurobiology Unit, EMBL Rome
    Molecular Medicine Partnership Unit (MMPU))

  • Ahmad Fawzi Hussain

    (University Hospital RWTH Aachen)

  • Fernanda Castro Reis

    (Epigenetics and Neurobiology Unit, EMBL Rome
    Molecular Medicine Partnership Unit (MMPU))

  • Luc Reymond

    (National Centre of Competence in Research (NCCR) in Chemical Biology)

  • Emerald Perlas

    (Epigenetics and Neurobiology Unit, EMBL Rome)

  • Simone Garcovich

    (Catholic University of the Sacred Heart)

  • Stefan Barth

    (University of Cape Town)

  • Kai Johnsson

    (Max-Planck Institute for Medical Research)

  • Stefan G. Lechner

    (Heidelberg University)

  • Paul A. Heppenstall

    (Epigenetics and Neurobiology Unit, EMBL Rome
    Molecular Medicine Partnership Unit (MMPU))

Abstract

Mechanical allodynia is a major symptom of neuropathic pain whereby innocuous touch evokes severe pain. Here we identify a population of peripheral sensory neurons expressing TrkB that are both necessary and sufficient for producing pain from light touch after nerve injury in mice. Mice in which TrkB-Cre-expressing neurons are ablated are less sensitive to the lightest touch under basal conditions, and fail to develop mechanical allodynia in a model of neuropathic pain. Moreover, selective optogenetic activation of these neurons after nerve injury evokes marked nociceptive behavior. Using a phototherapeutic approach based upon BDNF, the ligand for TrkB, we perform molecule-guided laser ablation of these neurons and achieve long-term retraction of TrkB-positive neurons from the skin and pronounced reversal of mechanical allodynia across multiple types of neuropathic pain. Thus we identify the peripheral neurons which transmit pain from light touch and uncover a novel pharmacological strategy for its treatment.

Suggested Citation

  • Rahul Dhandapani & Cynthia Mary Arokiaraj & Francisco J. Taberner & Paola Pacifico & Sruthi Raja & Linda Nocchi & Carla Portulano & Federica Franciosa & Mariano Maffei & Ahmad Fawzi Hussain & Fernanda, 2018. "Control of mechanical pain hypersensitivity in mice through ligand-targeted photoablation of TrkB-positive sensory neurons," Nature Communications, Nature, vol. 9(1), pages 1-14, December.
  • Handle: RePEc:nat:natcom:v:9:y:2018:i:1:d:10.1038_s41467-018-04049-3
    DOI: 10.1038/s41467-018-04049-3
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    Cited by:

    1. Mayank Gautam & Akihiro Yamada & Ayaka I. Yamada & Qinxue Wu & Kim Kridsada & Jennifer Ling & Huasheng Yu & Peter Dong & Minghong Ma & Jianguo Gu & Wenqin Luo, 2024. "Distinct local and global functions of mouse Aβ low-threshold mechanoreceptors in mechanical nociception," Nature Communications, Nature, vol. 15(1), pages 1-19, December.
    2. Chao Chen & Linlin Sun & Avital Adler & Hang Zhou & Licheng Zhang & Lihai Zhang & Junhao Deng & Yang Bai & Jinhui Zhang & Guang Yang & Wen-Biao Gan & Peifu Tang, 2023. "Synchronized activity of sensory neurons initiates cortical synchrony in a model of neuropathic pain," Nature Communications, Nature, vol. 14(1), pages 1-14, December.
    3. Timo A. Nees & Na Wang & Pavel Adamek & Nadja Zeitzschel & Clement Verkest & Carmen Porta & Irina Schaefer & Julie Virnich & Selin Balkaya & Vincenzo Prato & Chiara Morelli & Valerie Begay & Young Jae, 2023. "Role of TMEM100 in mechanically insensitive nociceptor un-silencing," Nature Communications, Nature, vol. 14(1), pages 1-17, December.
    4. Julia Ast & Daniela Nasteska & Nicholas H. F. Fine & Daniel J. Nieves & Zsombor Koszegi & Yann Lanoiselée & Federica Cuozzo & Katrina Viloria & Andrea Bacon & Nguyet T. Luu & Philip N. Newsome & David, 2023. "Revealing the tissue-level complexity of endogenous glucagon-like peptide-1 receptor expression and signaling," Nature Communications, Nature, vol. 14(1), pages 1-15, December.

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