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Cold-aggravated pain in humans caused by a hyperactive NaV1.9 channel mutant

Author

Listed:
  • Enrico Leipold

    (Center for Molecular Biomedicine, Friedrich Schiller University Jena & Jena University Hospital)

  • Andrea Hanson-Kahn

    (Stanford University School of Medicine
    Stanford University School of Medicine)

  • Miya Frick

    (Stanford University School of Medicine)

  • Ping Gong

    (Stanford University School of Medicine)

  • Jonathan A. Bernstein

    (Stanford University School of Medicine)

  • Martin Voigt

    (Institute of Human Genetics, Jena University Hospital)

  • Istvan Katona

    (Institute of Neuropathology, RWTH Aachen University Hospital)

  • R. Oliver Goral

    (Center for Molecular Biomedicine, Friedrich Schiller University Jena & Jena University Hospital)

  • Janine Altmüller

    (Cologne Center for Genomics (CCG), University of Cologne
    Institute of Human Genetics, University of Cologne)

  • Peter Nürnberg

    (Cologne Center for Genomics (CCG), University of Cologne
    Cologne Excellence Cluster on Cellular Stress Responses in Aging-Associated Diseases (CECAD), University of Cologne
    Center for Molecular Medicine Cologne (CMMC), University of Cologne)

  • Joachim Weis

    (Institute of Neuropathology, RWTH Aachen University Hospital)

  • Christian A. Hübner

    (Institute of Human Genetics, Jena University Hospital)

  • Stefan H. Heinemann

    (Center for Molecular Biomedicine, Friedrich Schiller University Jena & Jena University Hospital)

  • Ingo Kurth

    (Institute of Human Genetics, Jena University Hospital)

Abstract

Gain-of-function mutations in the human SCN11A-encoded voltage-gated Na+ channel NaV1.9 cause severe pain disorders ranging from neuropathic pain to congenital pain insensitivity. However, the entire spectrum of the NaV1.9 diseases has yet to be defined. Applying whole-exome sequencing we here identify a missense change (p.V1184A) in NaV1.9, which leads to cold-aggravated peripheral pain in humans. Electrophysiological analysis reveals that p.V1184A shifts the voltage dependence of channel opening to hyperpolarized potentials thereby conferring gain-of-function characteristics to NaV1.9. Mutated channels diminish the resting membrane potential of mouse primary sensory neurons and cause cold-resistant hyperexcitability of nociceptors, suggesting a mechanistic basis for the temperature dependence of the pain phenotype. On the basis of direct comparison of the mutations linked to either cold-aggravated pain or pain insensitivity, we propose a model in which the physiological consequence of a mutation, that is, augmented versus absent pain, is critically dependent on the type of NaV1.9 hyperactivity.

Suggested Citation

  • Enrico Leipold & Andrea Hanson-Kahn & Miya Frick & Ping Gong & Jonathan A. Bernstein & Martin Voigt & Istvan Katona & R. Oliver Goral & Janine Altmüller & Peter Nürnberg & Joachim Weis & Christian A. , 2015. "Cold-aggravated pain in humans caused by a hyperactive NaV1.9 channel mutant," Nature Communications, Nature, vol. 6(1), pages 1-11, December.
    • Handle: RePEc:nat:natcom:v:6:y:2015:i:1:d:10.1038_ncomms10049
    DOI: 10.1038/ncomms10049
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