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Endogenous opioids contribute to insensitivity to pain in humans and mice lacking sodium channel Nav1.7

Author

Listed:
  • Michael S. Minett

    (Molecular Nociception Group, WIBR, University College London)

  • Vanessa Pereira

    (Molecular Nociception Group, WIBR, University College London)

  • Shafaq Sikandar

    (Molecular Nociception Group, WIBR, University College London)

  • Ayako Matsuyama

    (Molecular Nociception Group, WIBR, University College London)

  • Stéphane Lolignier

    (Molecular Nociception Group, WIBR, University College London)

  • Alexandros H. Kanellopoulos

    (Molecular Nociception Group, WIBR, University College London)

  • Flavia Mancini

    (Physiology and Pharmacology, University College London)

  • Gian D. Iannetti

    (Physiology and Pharmacology, University College London)

  • Yury D. Bogdanov

    (Molecular Nociception Group, WIBR, University College London)

  • Sonia Santana-Varela

    (Molecular Nociception Group, WIBR, University College London)

  • Queensta Millet

    (Molecular Nociception Group, WIBR, University College London)

  • Giorgios Baskozos

    (Institute of Structural and Molecular Biology, UCL)

  • Raymond MacAllister

    (UCL)

  • James J. Cox

    (Molecular Nociception Group, WIBR, University College London)

  • Jing Zhao

    (Molecular Nociception Group, WIBR, University College London)

  • John N. Wood

    (Molecular Nociception Group, WIBR, University College London)

Abstract

Loss-of-function mutations in the SCN9A gene encoding voltage-gated sodium channel Nav1.7 cause congenital insensitivity to pain in humans and mice. Surprisingly, many potent selective antagonists of Nav1.7 are weak analgesics. We investigated whether Nav1.7, as well as contributing to electrical signalling, may have additional functions. Here we report that Nav1.7 deletion has profound effects on gene expression, leading to an upregulation of enkephalin precursor Penk mRNA and met-enkephalin protein in sensory neurons. In contrast, Nav1.8-null mutant sensory neurons show no upregulated Penk mRNA expression. Application of the opioid antagonist naloxone potentiates noxious peripheral input into the spinal cord and dramatically reduces analgesia in both female and male Nav1.7-null mutant mice, as well as in a human Nav1.7-null mutant. These data suggest that Nav1.7 channel blockers alone may not replicate the analgesic phenotype of null mutant humans and mice, but may be potentiated with exogenous opioids.

Suggested Citation

  • Michael S. Minett & Vanessa Pereira & Shafaq Sikandar & Ayako Matsuyama & Stéphane Lolignier & Alexandros H. Kanellopoulos & Flavia Mancini & Gian D. Iannetti & Yury D. Bogdanov & Sonia Santana-Varela, 2015. "Endogenous opioids contribute to insensitivity to pain in humans and mice lacking sodium channel Nav1.7," Nature Communications, Nature, vol. 6(1), pages 1-8, December.
    • Handle: RePEc:nat:natcom:v:6:y:2015:i:1:d:10.1038_ncomms9967
    DOI: 10.1038/ncomms9967
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