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Lysophosphatidic acid, the lipid mediator involved in demyelinating neuropathic pain mechanisms Hiroshi Ueda 1 , Ryousuke Fujita 1 1Division of Molecular Pharmacology and Neuroscience, Nagasaki University Graduate School of Biomedcal Sciences Keyword: 神経因性疼痛 , リゾホスファチジン酸 , 脱髄 pp.929-938
Published Date 2006/12/10
DOI https://doi.org/10.11477/mf.1431100414
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 Many known painkillers, such as non-steroidal anti-inflammatory drugs and morphine are not always effective in the therapy of chronic neuropathic pain manifested by hyperalgesia and tactile allodynia. It may come from the fact that the mechanisms underlying neuropathic pain markedly differ from acute and inflammatory pain. Although recent advances in pain research provide us with a clear picture for the molecular mechanisms of acute pain, they are not enough for chronic neuropathic pain mechanisms. In our approaches we have attempted to separately characterize the behavioral responses through different types of nociceptive or even innocuous fibers, and to compare them between normal and neuropathic pain model animals. For this purpose we developed new nociception tests, algogenic-induced paw flexion(APF), electric stimulation-induced paw flexion(EPF)and withdrawal(EPW)tests.

 From these studies, it was revealed that type 1 C-fibers are neo-natal capsaicin-sensitive, and use substance P/NK1 receptor for pain transmission, type 2 C-fibers are also capsaicin-sensitive, but use glutamate/NMDA receptor, Aδ-fibers are capsaicin-insensitive and use glutamate/NMDA receptor, and Aβ-fibers are also capsaicin-insensitive and use glutamate/non-NMDA(AMPA-kainate)receptor.

 Following partial sciatic nerve-injury to induce neuropathic hyperalgesia and allodynia, type-1 C-fiber function is largely attenuated, possibly through a down-regulation of spinal substance P expression. Bradykinin B2-receptor in type 1 C-fibers is down-regulated, while B1-receptor is expressed in A-fibers. The up-regulation of α2δ1-subunit of Ca channel and TRPV1 capsaicin receptor was observed in A-fibers. These findings are consistent with the observation that the threshold of nociceptive responses by C-fiber stimulation is increased in the EPF or EPW test, while those by Aδ-and Aβ-fiber stimulations are decreased. Of interest are the findings that nerve-injury-induced neuropathic pain is abolished by intrathecal injection of botulinum C3 toxin(BoTN/C3), marked BoTN/C3-sensitive demyelination is observed in the dorsal root, and intrathecal lysophosphatidic acid(LPA)also causes BoTN/C3-sensitive neuropathic pain. From the idea that Schwann cell expresses LPA1 receptor, which causes morphological changes in various cells through BoTN/C3-sensitive Rho protein activation, we examined the possibility of LPA1 receptor-involvement in neuropathic pain and demyelination. The experiments using LPA1 receptor knock-out mice revealed that all these changes in the nerve injury-induced or LPA-administered neuropathic pain model mice are mediated by the activation of LPA1 receptor, RhoA and Rho kinase.


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電子版ISSN 1882-1243 印刷版ISSN 0001-8724 医学書院

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