Cyclodextrins inhibit TRPV1 and TRPA1 activation-induced nociception via cholesterol depletion

Nehr-Majoros, Andrea Kinga and Karakai, Lajos and Payrits, Maja and Bencze, Noémi and Kemény, Ágnes and Sétáló, György (ifj.) and Börzsei, Rita and Hetényi, Csaba and Helyes, Zsuzsanna and Szőke, Éva (2025) Cyclodextrins inhibit TRPV1 and TRPA1 activation-induced nociception via cholesterol depletion. JOURNAL OF LIPID RESEARCH, 66 (7). No.-100844. ISSN 0022-2275

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Abstract

The nociceptive Transient Receptor Potential Vanilloid 1 (TRPV1) and Ankyrin 1 (TRPA1) channels are predominantly expressed on peptidergic sensory nerves, being involved in pain sensation and neurogenic inflammation induced by local release of pro-inflammatory neuropeptides in the innervation area. Their activation is facilitated by cholesterol-rich lipid microdomains (lipid rafts) in the plasma membrane. Cyclodextrin (CD) derivatives deplete cholesterol from membrane rafts, reducing receptor activation in vitro, anticipating in vivo analgesic effects. We compared three different CD derivatives selected based on our previous results: random methylated β-cyclodextrin, (2-hydroxypropyl)-β-cyclodextrin and sulfobutylether-β-cyclodextrin. The effects of the topical CD pretreatments were evaluated in acute pain and neurogenic vasodilatation models in mice 30 min after TRPV1 (resiniferatoxin) or TRPA1 (formalin or mustard oil) receptor agonist administration. Intraplantar CD pretreatments significantly reduced the duration of nocifensive behaviors during the neurogenic inflammatory phase of the formalin test, as well as mechanical, but not thermal hyperalgesia following resiniferatoxin injection. CD-pretreatment significantly reduced mustard oil-induced acute neurogenic vasodilatation in the mouse ear and decreased the total cholesterol content in the plantar skin and ear tissues. Cholesterol depletion was restored by cholesterol loaded CDs. However, overloading cells with cholesterol did not significantly affect cholesterol depletion. In silico modeling showed that the methylated derivative RAMEB has different cholesterol binding mode compared to HPBCD and SBECD. Wepresent the first in vivo results showing that these CD derivatives are promising agents for exerting peripheral analgesia and anti-inflammation via cholesterol depletion, also supported by our in vitro and in silico findings.

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