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

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 per...

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Autores principales: 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.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Cell Press 2018
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6011627/
https://www.ncbi.nlm.nih.gov/pubmed/29429934
http://dx.doi.org/10.1016/j.neuron.2018.01.033
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author 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.
author_facet 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.
author_sort Dawes, John M.
collection PubMed
description 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.
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spelling pubmed-60116272018-06-25 Immune or Genetic-Mediated Disruption of CASPR2 Causes Pain Hypersensitivity Due to Enhanced Primary Afferent Excitability 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. Neuron Article 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. Cell Press 2018-02-21 /pmc/articles/PMC6011627/ /pubmed/29429934 http://dx.doi.org/10.1016/j.neuron.2018.01.033 Text en © 2018 The Author(s) http://creativecommons.org/licenses/by/4.0/ This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
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.
Immune or Genetic-Mediated Disruption of CASPR2 Causes Pain Hypersensitivity Due to Enhanced Primary Afferent Excitability
title Immune or Genetic-Mediated Disruption of CASPR2 Causes Pain Hypersensitivity Due to Enhanced Primary Afferent Excitability
title_full Immune or Genetic-Mediated Disruption of CASPR2 Causes Pain Hypersensitivity Due to Enhanced Primary Afferent Excitability
title_fullStr Immune or Genetic-Mediated Disruption of CASPR2 Causes Pain Hypersensitivity Due to Enhanced Primary Afferent Excitability
title_full_unstemmed Immune or Genetic-Mediated Disruption of CASPR2 Causes Pain Hypersensitivity Due to Enhanced Primary Afferent Excitability
title_short Immune or Genetic-Mediated Disruption of CASPR2 Causes Pain Hypersensitivity Due to Enhanced Primary Afferent Excitability
title_sort immune or genetic-mediated disruption of caspr2 causes pain hypersensitivity due to enhanced primary afferent excitability
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6011627/
https://www.ncbi.nlm.nih.gov/pubmed/29429934
http://dx.doi.org/10.1016/j.neuron.2018.01.033
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