体内
化学
药理学
三萜类
兴奋剂
白桦素
炎症
瞬时受体电位通道
TRPM8型
体外
离子通道
伤害感受器
生物化学
立体化学
受体
医学
生物
伤害
内科学
TRPV1型
生物技术
作者
Ilari Mäki‐Opas,Mari Hämäläinen,Lauri Moilanen,Raisa Haavikko,Tiina J. Ahonen,Sami Alakurtti,Vânia M. Moreira,Katsuhiko Muraki,Jari Yli‐Kauhaluoma,Eeva Moilanen
标识
DOI:10.1021/acschemneuro.9b00083
摘要
TRPA1 is a nonselective cation channel, most famously expressed in nonmyelinated nociceptors. In addition to being an important chemical and mechanical pain sensor, TRPA1 has more recently appeared to have a role also in inflammation. Triterpenoids are natural products with anti-inflammatory and anticancer effects in experimental models. In this paper, 13 novel triterpenoids were created by synthetically modifying betulin, an abundant triterpenoid of the genus Betula L., and their TRPA1-modulating properties were examined. The Fluo 3-AM protocol was used in the initial screening, in which six of the 14 tested triterpenoids inhibited TRPA1 in a statistically significant manner. In subsequent whole-cell patch clamp recordings, the two most effective compounds (pyrazine-fused triterpenoids 8 and 9) displayed a reversible and dose- and voltage-dependent effect to block the TRPA1 ion channel at submicromolar concentrations. Interestingly, the TRPA1 blocking action was also evident in vivo, as compounds 8 and 9 both alleviated TRPA1 agonist-induced acute paw inflammation in mice. The results introduce betulin-derived pyrazine-fused triterpenoids as promising novel antagonists of TRPA1 that are potentially useful in treating diseases with a TRPA1-mediated adverse component.
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