Abstract EN:

The anti-migraine properties of Tanacetum parthenium are mainly attributed to its main active compound: the parthenolide. Its mechanism of action is not completely understood, but growing evidences are demonstrating a possible desensitization of the transient receptor potential ankyrin 1 (TRPA1) channel by parthenolide action. The TRPA1, due its expression in the nerve endings of meningeal nociceptors and other neuroanatomical sites implicated in migraine modulation, play itself a role in the pathophysiology of migraine. Our hypothesis is that partenolide increases the migraine triggering threshold by desensitizing TRPA1 receptors. To test our hypothesis, we first evaluated the efficacy and mode of action of parthenolide in a rat model of migraine. By combining different in vivo approaches (behaviour assessment and electrophysiology) we have shown that parthenolide, administered intraperitoneally, prevents cutaneous cephalic hypersensitivity induced by repeated injections of inflammatory substances (or inflammatory soup: IS) on the surface of the meninges. More specifically, we demonstrate parthenolide can act at the peripheral level where the TRPA1 receptors are located. Indeed, when the application of parthenolide directly on the surface of the meninges preceded the application of IS, second order wide-dynamic range neurons at the caudal trigeminal spinal nucleus displayed a decreased spontaneous and evoked activity, contrasting with the increased activity observed in non-treated rats. Finally, we were able to observe that, in vitro, parthenolide binds to TRPA1 receptors via a Michael addition reaction on cysteine, as shown by nuclear magnetic resonance and thermophoresis studies. Additionally, since a previous open clinical trial had shown the effectiveness of Tanacetum parthenium combined with the plant Salix alba in preventing migraines we used the same model of migraine as described above to test the effectiveness of salicin (active compound in Salix alba) or the combination of the 2 active compounds in reducing cutaneous cephalic hypersensitivity. We observed that salicin alone was ineffective but, when used in combination with parthenolide, it produced a synergetic effect. Finally, we tested the effectiveness of the combination of the two plants in a randomized, placebo-controlled, double-blind clinical study on 129 patients with episodic migraine. After 28 days of observation and 12 weeks of treatment, the herbal combination was shown to be significantly superior in preventing migraines compared to the placebo group. Overall, these results confirm that Tanacetum parthenium, particularly when used in combination with Salix alba, is a successful and safe therapy in humans to prevent and decrease the frequency of migraine attacks, an effect probably related the ability to target and desensitize TRPA1 channels.