TRPM8 in the negative regulation of TNFα expression during cold stress

XP Wang, X Yu, XJ Yan, F Lei, YS Chai, JF Jiang… - Scientific reports, 2017 - nature.com
XP Wang, X Yu, XJ Yan, F Lei, YS Chai, JF Jiang, ZY Yuan, DM Xing, LJ Du
Scientific reports, 2017nature.com
Abstract Transient Receptor Potential Melastatin-8 (TRPM8) reportedly plays a fundamental
role in a variety of processes including cold sensation, thermoregulation, pain transduction
and tumorigenesis. However, the role of TRPM8 in inflammation under cold conditions is not
well known. Since cooling allows the convergence of primary injury and injury-induced
inflammation, we hypothesized that the mechanism of the protective effects of cooling might
be related to TRPM8. We therefore investigated the involvement of TRPM8 activation in the …
Abstract
Transient Receptor Potential Melastatin-8 (TRPM8) reportedly plays a fundamental role in a variety of processes including cold sensation, thermoregulation, pain transduction and tumorigenesis. However, the role of TRPM8 in inflammation under cold conditions is not well known. Since cooling allows the convergence of primary injury and injury-induced inflammation, we hypothesized that the mechanism of the protective effects of cooling might be related to TRPM8. We therefore investigated the involvement of TRPM8 activation in the regulation of inflammatory cytokines. The results showed that TRPM8 expression in the mouse hypothalamus was upregulated when the ambient temperature decreased; simultaneously, tumor necrosis factor-alpha (TNFα) was downregulated. The inhibitory effect of TRPM8 on TNFα was mediated by nuclear factor kappa B (NFκB). Specifically, cold stress stimulated the expression of TRPM8, which promoted the interaction of TRPM8 and NFκB, thereby suppressing NFκB nuclear localization. This suppression consequently led to the inhibition of TNFα gene transcription. The present data suggest a possible theoretical foundation for the anti-inflammatory role of TRPM8 activation, providing an experimental basis that could contribute to the advancement of cooling therapy for trauma patients.
nature.com
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