4.7 Article

The role of free fatty acid receptor pathways in a selective regulation of TRPA1 and TRPV1 by resolvins in primary sensory neurons

Journal

JOURNAL OF CELLULAR PHYSIOLOGY
Volume 237, Issue 9, Pages 3651-3660

Publisher

WILEY
DOI: 10.1002/jcp.30826

Keywords

dorsal root ganglion neuron; free fatty acid receptor; resolvin; TRPA1; TRPV1

Funding

  1. National Research Foundation of Korea [NRF2020R1A2C2012846]

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This study identifies a new pathway for the modulation of TRPA1 and TRPV1 channels, which are involved in inflammatory and neuropathic pain. The findings show that endogenous anti-inflammatory lipid mediators can selectively inhibit the activity of these channels through specific signaling pathways.
Transient receptor potential ankyrin 1 and vanilloid 1 (TRPA1 and TRPV1, respectively) channels contribute to inflammatory and neuropathic pain, indicating that their pharmacological inhibition could be a novel strategy for treating painful diseases. However, the mechanisms of TRPA1/V1 channel modulation have been mostly characterized to be upregulation and sensitization via variety of exogenous stimuli, endogenous inflammatory mediators, and metabolites of oxidative stress. Here we used calcium imaging of dorsal root ganglion neurons to identify an inhibitor signaling pathway for TRPA1 and TRPV1 regulated by resolvins (RvD1 and RvE1), which are endogenous anti-inflammatory lipid mediators. TRPA1 and TRPV1 channel activations were evoked by the TRPA1 agonist allyl isothiocyanate and the TRPV1 agonist capsaicin. Our results show that RvD1-induced selective inhibition of TRPA1 activity was mediated by free fatty acid receptor 4 (FFAR4)-protein kinase C (PKC) signaling. Experiments assessing RvE1-induced TRPV1 inhibition showed that RvE1 actions required both FFAR1 and FFAR4. Combined stimulation of FFAR1/FFAR4 or FFAR1/PKC mimicked TRPV1 inhibition by RvE1, and these effects were blocked by a protein kinase D (PKD) inhibitor, implying that PKD is an effector of the FFAR/PKC signaling axis in RvE1-induced TRPV1 inhibition. Despite selective inhibition of TRPV1 in the nanomolar range of RvE1, higher concentrations of RvE1 also inhibited TRPA1, possibly through PKC. Collectively, our findings reveal FFAR1 and FFAR4 as key signaling pathways mediating the selective targeting of resolvins to regulate TRPA1 and TRPV1, elucidating endogenous analgesic mechanisms that could be exploited as potential therapeutic targets.

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