Human autoantibodies to contactin-associated protein-like 2 (CASPR2) are often associated with neuropathic pain, and CASPR2 mutations have been linked to autism spectrum disorders, in which sensory dysfunction is increasingly recognized. Human CASPR2 autoantibodies, when injected into mice, were peripherally restricted and resulted in mechanical pain-related hypersensitivity in the absence of neural injury. We therefore investigated the mechanism by which CASPR2 modulates nociceptive function. Mice lacking CASPR2 (Cntnap2−/−) demonstrated enhanced pain-related hypersensitivity to noxious mechanical stimuli, heat, and algogens. Both primary afferent excitability and subsequent nociceptive transmission within the dorsal horn were increased in Cntnap2−/−mice. Either immune or genetic-mediated ablation of CASPR2 enhanced the excitability of DRG neurons in a cell-autonomous fashion through regulation of Kv1 channel expression at the soma membrane. This is the first example of passive transfer of an autoimmune peripheral neuropathic pain disorder and demonstrates that CASPR2 has a key role in regulating cell-intrinsic dorsal root ganglion (DRG) neuron excitability. Dawes et al. show that CASPR2, the target of an autoimmune pain disorder, regulates sensory function through tuning of primary afferent excitability. Human autoantibodies to CASPR2 cause pain-related hypersensitivity and enhance DRG cell excitability through reduced Kv1 channel function.

Immune or Genetic-Mediated Disruption of CASPR2 Causes Pain Hypersensitivity Due to Enhanced Primary Afferent Excitability

GIANNOCCARO, MARIA PIA;
2018

Abstract

Human autoantibodies to contactin-associated protein-like 2 (CASPR2) are often associated with neuropathic pain, and CASPR2 mutations have been linked to autism spectrum disorders, in which sensory dysfunction is increasingly recognized. Human CASPR2 autoantibodies, when injected into mice, were peripherally restricted and resulted in mechanical pain-related hypersensitivity in the absence of neural injury. We therefore investigated the mechanism by which CASPR2 modulates nociceptive function. Mice lacking CASPR2 (Cntnap2−/−) demonstrated enhanced pain-related hypersensitivity to noxious mechanical stimuli, heat, and algogens. Both primary afferent excitability and subsequent nociceptive transmission within the dorsal horn were increased in Cntnap2−/−mice. Either immune or genetic-mediated ablation of CASPR2 enhanced the excitability of DRG neurons in a cell-autonomous fashion through regulation of Kv1 channel expression at the soma membrane. This is the first example of passive transfer of an autoimmune peripheral neuropathic pain disorder and demonstrates that CASPR2 has a key role in regulating cell-intrinsic dorsal root ganglion (DRG) neuron excitability. Dawes et al. show that CASPR2, the target of an autoimmune pain disorder, regulates sensory function through tuning of primary afferent excitability. Human autoantibodies to CASPR2 cause pain-related hypersensitivity and enhance DRG cell excitability through reduced Kv1 channel function.
2018
Dawes, John M.; Weir, Greg A.; Middleton, Steven J.; Patel, Ryan; Chisholm, Kim I.; Pettingill, Philippa; Peck, Liam J.; Sheridan, Joseph; Shakir, Akila; Jacobson, Leslie; Gutierrez-Mecinas, Maria; Galino, Jorge; Walcher, Jan; Kühnemund, Johannes; Kuehn, Hannah; Sanna, Maria D.; Lang, Bethan; Clark, Alex J.; Themistocleous, Andreas C.; Iwagaki, Noboru; West, Steven J.; Werynska, Karolina; Carroll, Liam; Trendafilova, Teodora; Menassa, David A.; Giannoccaro, Maria Pia; Coutinho, Ester; Cervellini, Ilaria; Tewari, Damini; Buckley, Camilla; Leite, M. Isabel; Wildner, Hendrik; Zeilhofer, Hanns Ulrich; Peles, Elior; Todd, Andrew J.; McMahon, Stephen B.; Dickenson, Anthony H.; Lewin, Gary R.; Vincent, Angela; Bennett, David L.*
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/644446
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