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Spinal inhibition of p38 MAP kinase reduces inflammatory and neuropathic pain in male but not female mice: Sex-dependent microglial signaling in the spinal cord.

Publication ,  Journal Article
Taves, S; Berta, T; Liu, D-L; Gan, S; Chen, G; Kim, YH; Van de Ven, T; Laufer, S; Ji, R-R
Published in: Brain Behav Immun
July 2016

Previous studies have shown that activation of p38 mitogen-activating kinase (MAPK) in spinal microglia participates in the generation of inflammatory and neuropathic pain in various rodent models. However, these studies focused on male mice to avoid confounding effects of the estrous cycle of females. Recent studies have shown that some spinal pro-inflammatory signaling such as Toll-like receptor 4-mediated signaling contributes to pain hypersensitivity only in male mice. In this study we investigated the distinct role of spinal p38 in inflammatory and neuropathic pain using a highly selective p38 inhibitor skepinone. Intrathecal injection of skepinone prevented formalin induced inflammatory pain in male but not female mice. Furthermore, intrathecal skepinone reduced chronic constriction injury (CCI) induced neuropathic pain (mechanical allodynia) in male mice on CCI-day 7 but not CCI-day 21. This male-dependent inhibition of neuropathic pain also occurred in rats following intrathecal skepinone. Nerve injury induced spinal p38 activation (phosphorylation) in CX3CR1-GFP(+) microglia on CCI-day 7, and this activation was more prominent in male mice. In contrast, CCI induced comparable microgliosis and expression of the microglial markers CX3CR1 and IBA-1 in both sexes. Notably, intraperitoneal or local perineural administration of skepinone inhibited CCI-induced mechanical allodynia in both sexes of mice. Finally, skepinone only reduced the frequency of spontaneous excitatory postsynaptic currents (sEPSCs) in lamina IIo neurons of spinal cord slices of males 7days post CCI. Therefore, the sex-specific p38 activation and signaling is confined to the spinal cord in inflammatory and neuropathic pain conditions.

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Published In

Brain Behav Immun

DOI

EISSN

1090-2139

Publication Date

July 2016

Volume

55

Start / End Page

70 / 81

Location

Netherlands

Related Subject Headings

  • p38 Mitogen-Activated Protein Kinases
  • Spinal Cord
  • Sex Factors
  • Protein Kinase Inhibitors
  • Neurology & Neurosurgery
  • Neuralgia
  • Microglia
  • Mice, Inbred C57BL
  • Mice
  • Male
 

Citation

APA
Chicago
ICMJE
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Taves, S., Berta, T., Liu, D.-L., Gan, S., Chen, G., Kim, Y. H., … Ji, R.-R. (2016). Spinal inhibition of p38 MAP kinase reduces inflammatory and neuropathic pain in male but not female mice: Sex-dependent microglial signaling in the spinal cord. Brain Behav Immun, 55, 70–81. https://doi.org/10.1016/j.bbi.2015.10.006
Taves, Sarah, Temugin Berta, Da-Lu Liu, Sophie Gan, Gang Chen, Yong Ho Kim, Thomas Van de Ven, Stefan Laufer, and Ru-Rong Ji. “Spinal inhibition of p38 MAP kinase reduces inflammatory and neuropathic pain in male but not female mice: Sex-dependent microglial signaling in the spinal cord.Brain Behav Immun 55 (July 2016): 70–81. https://doi.org/10.1016/j.bbi.2015.10.006.
Taves, Sarah, et al. “Spinal inhibition of p38 MAP kinase reduces inflammatory and neuropathic pain in male but not female mice: Sex-dependent microglial signaling in the spinal cord.Brain Behav Immun, vol. 55, July 2016, pp. 70–81. Pubmed, doi:10.1016/j.bbi.2015.10.006.
Taves S, Berta T, Liu D-L, Gan S, Chen G, Kim YH, Van de Ven T, Laufer S, Ji R-R. Spinal inhibition of p38 MAP kinase reduces inflammatory and neuropathic pain in male but not female mice: Sex-dependent microglial signaling in the spinal cord. Brain Behav Immun. 2016 Jul;55:70–81.
Journal cover image

Published In

Brain Behav Immun

DOI

EISSN

1090-2139

Publication Date

July 2016

Volume

55

Start / End Page

70 / 81

Location

Netherlands

Related Subject Headings

  • p38 Mitogen-Activated Protein Kinases
  • Spinal Cord
  • Sex Factors
  • Protein Kinase Inhibitors
  • Neurology & Neurosurgery
  • Neuralgia
  • Microglia
  • Mice, Inbred C57BL
  • Mice
  • Male