Intensity Dependence of the Cortical Auditory Evoked Potentials as a Surrogate Marker of Central Nervous System Serotonin Transmission in Man: Demonstration of a Central Effect for the 5ht1b/1d Agonist Zolmitriptan (311c90, Zomig)
Proietti-Cecchini, A.; Afra, J.; Schoenen, Jean
1997 • In Cephalalgia, 17 (8), p. 849-54, discussion 799
[en] As shown in animal studies, 5HT1B/D agonists can inhibit activity in the trigeminal nucleus caudalis, which may be advantageous for their antimigraine effect. To demonstrate a possible central nervous system (CNS) action of these compounds in man we studied their effect on the intensity dependence of the cortical auditory evoked potentials (IDAPs), thought to be inversely related to central serotonergic transmission. An amplitude/stimulus intensity function (ASF) slope was computed in healthy volunteers and migraine patients between attacks before and 2 h after oral 311C90 (zolmitriptan "Zomig") 10 mg (n=14), 311C90 5 mg (n=7), sumatriptan 100 mg (n=14), dexfenfluramine 15 mg (n=4), lorazepam 1.25 mg (n=4) and placebo (n=14). 311C90 10 mg and, to a lesser degree, 5 mg significantly increased the mean ASF slope (p=0.007 and 0.05 vs placebo). There was a significant positive correlation between plasma levels of 311C90 and ASF slope changes. Sumatriptan and lorazepam had little effect, but dexfenfluramine produced a significant ASF slope decrease. 311C90 is able to modify a CNS activity that is modulated by serotonin, i.e. the IDAP. This effect is probably the consequence of its superior lipophilicity compared to sumatriptan and of activation of prejunctional 5HT1B/D autoreceptors, which lowers central serotonin release and thus the preactivation level of sensory cortices.
Disciplines :
Neurosciences & behavior Neurology
Author, co-author :
Proietti-Cecchini, A.
Afra, J.
Schoenen, Jean ; Université de Liège - ULiège > Département des sciences biomédicales et précliniques > Neuro-anatomie
Language :
English
Title :
Intensity Dependence of the Cortical Auditory Evoked Potentials as a Surrogate Marker of Central Nervous System Serotonin Transmission in Man: Demonstration of a Central Effect for the 5ht1b/1d Agonist Zolmitriptan (311c90, Zomig)
Ferrari MD, Saxena PR. 5-HT1 receptors in migraine pathophysiology and treatment. Eur J Neurol 1995;2:5-21
Buzzi MG, Moskowitz MA. The antimigraine drug, sumatriptan (GR43175), selectively blocks neurogenic plasma extravasation from blood vessels in dura mater. Br J Pharmacol 1990;99:202-6
Kaube H, Hoskin KL, Goadsby PJ. Sumatriptan inhibits central trigeminal neurons only after blood-brain barrier disruption. Br J Pharmacol 1993;109:788-92
Goadsby PJ, Edvinsson L. Peripheral and central trigeminovascular activation in cat is blocked by the serotonin (5-HT)-1D receptor agonist 311C90. Headache 1994;34:394-9
Goadsby PJ, Hoskin KL. Inhibition of trigeminal neurons by intravenous administration of the serotonin (5-HT)-1D agonist Zolmitriptan (311C90): Are brain stem sites a therapeutic target in migraine? Pain 1996;67:355-9
Hoskin KL, Kaube H, Coadsby PJ. Central activation of trigeminovascular pathway in the cat is inhibited by dihydroergotamine. A c-Fos and electrophysiological study. Brain 1996;119:249-56
Pascual J, del Arco C, Romon T, del Olmo E, Castro E, Pazos A. Autoradiographic distribution of [3H]sumatriptan-binding sites in post-mortem human brain. Cephalalgia 1996;16:317-22
Schoenen J, Klein KB, Sweet RM for the Multinational Oral 311C and Sumatriptan Comparative Study Group. The CNS adverse event profiles of 311C90 and sumatriptan appear identical. Eur J Neurol 1996;3 Suppl 5:153
Göbel H, Krapat S, Dworschak M, Heuss D, Ensink FBM, Soyka D. Exteroceptive suppression of temporalis muscle activity during migraine attack and migraine interval before and after treatment with sumatriptan. Cephalalgia 1994;14:143-8
Dahlöf C, Diener HC, Goadsby PJ, Massiou H, Olesen J, Schoenen J, et al. A multinational, double-blind, placebo-controlled, dose range finding study to investigate the efficacy and safety of oral doses of 311C90 in the acute treatment of migraine. Headache 1995;35:292
Martin GR. Inhibition of the trigemino-vascular system with 5-HT1D agonist drugs: selective targeting additional sites of action. Eur Neurol 1996;36 Suppl 2:13-18
Schoenen J, Caekebeke P, Louis G, Monseu G, Phillips S, Pierre P. An open study to investigate the absorption and tolerability of oral 311C90 and to obtain a preliminary indication of an efficacy in migraine patients. In: Clifford Rose F, editor. Proceedings of the 10th Migraine Trust Symposium, New Advances in Headache Research 4. London: Smith-Gordon, 1994:11-12
Hegerl U, Juckel G. Intensity dependence of auditory evoked potentials as an indicator of serotonergic neurotransmission: a new hypothesis. Biol Psychiatr 1993;33:173-87
Wang W, Timsit-Berthier M, Schoenen J. Intensity dependence of auditory evoked potentials in migraine: an indication of cortical potentiation and low serotonergic neurotransmission? Neurology 1996;46:1404-9
Buchsbaum MS, Gillin JC, Pfefferbaum A. Effect of sleep stage and stimulus intensity on auditory average evoked responses. Psychophysiology 1975;12:707-12
Visser WH, Klein KB, Cox RC, Jones D, Ferrari MD. 311C90, a new central and peripherally acting 5-HT1D receptor agonist in the acute oral treatment of migraine: a double-blind, placebo-controlled, dose range finding study. Neurology 1996; 46:522-6
Sleight AJ, Cervenka A, Peroutka SJ. In vivo effects of sumatriptan (GR43175) on extracellular levels of 5-HT in the guinea pig. Neuropharmacology 1990;29:511-13
Piñeyro G, Castanon N, Hen R, Blier P. Regulation of [3H]5-HT release in raphe, frontal cortex and hippocampus of 5-HT1B knock-out mice. NeuroReport 1995;7:353-9
Mitsikostas DD, Papadopoulou-Daifotis Z, Sifkakis A, Varanos D. The effect of sumatriptan on brain monoamines in rats. Headache 1996;36:29-31
Schoenen J, Raubüschl O, Sianard J. Pharmacologic modulation of temporalis exteroceptive silent periods in healthy volunteers. Cephalalgia 1991;11 Suppl 11:16-17
Mason P. Intracellular responses of raphe magnus neurons during the jaw-opening reflex evoked by tooth pulp stimulation. Brain Res 1986;379:232-41
Göbel H, Krapat S, Ensink FBM, Soyka D. Comparison of contingent negative variation between migraine interval and migraine attack before and after treatment with sumatriptan. Headache 1993;33:570-2
Ferrari MD, Odink J, Tapparelli C, Van Kempen CM, Pennings EJ, Bruyn GW. Serotonin metabolism in migraine. Neurology 1989;39:1239-42
Ophoff RA, Terwindt M, Vergouwe MN, van Eijk R, Oefner PJ, Hoffman MG, et al. Familial hemiplegic migraine and episodic ataxia type-2 are caused by mutations in the Ca2+ channel gene CACNL1A4. Cell 1996;87:543-52
Sicuteri F, Anselmi B, Del Bianco PL. Dopamine and 5-HT supersensitivity in non-organic central pain and in morphine abstinence: fortuitous or renal analogy? Adv Biochem Psychopharmacol 1980;22:523-33
