TY - JOUR
T1 - Parthenolide inhibits nociception and neurogenic vasodilatation in the trigeminovascular system by targeting the TRPA1 channel
AU - Materazzi, Serena
AU - Benemei, Silvia
AU - Fusi, Camilla
AU - Gualdani, Roberta
AU - De Siena, Gaetano
AU - Vastani, Nisha
AU - Andersson, David A.
AU - Trevisan, Gabriela
AU - Moncelli, Maria Rosa
AU - Wei, Xiaomei
AU - Dussor, Gregory
AU - Pollastro, Federica
AU - Patacchini, Riccardo
AU - Appendino, Giovanni
AU - Geppetti, Pierangelo
AU - Nassini, Romina
N1 - Funding Information:
This study was supported in part by the Regione Toscana (Programma Operativo Regionale Competitività Regionale e Occupazione (FABER-POR CReO), Fondo Europeo di Sviluppo Regionale (FESR) 2007-2013 1.1.C .) to P.G., in part by Ente Cassa di Risparmio di Firenze to R.N. and M.R.M., as well as the National Institutes of Health/National Institute of Neurological Diseases and Stroke ( NS 072204 ) to G.D. The authors thank Professor David Julius (University of California at San Francisco, CA, USA) for the kind gift of the TRPA1-deficient mice and humanTRPA1 wild-type and humanTRPA1 mutant (C619S, C639S, C663S, K708Q) cDNAs; Professor Bernd Nilius (Katholieke Universiteit, Leuven, Belgium) for providing mouseTRPA1-CHO transfected cells; and Professor Alyn H. Morice (Academic Department of Medicine, Castle Hill Hospital, UK) for providing humanTRPA1-HEK293 stably transfected cells. The authors also thank Dr. Delia Preti and Professor Pier Giovanni Baraldi (University of Ferrara, Italy) for providing HC-030031. P.G. is a member of the editorial boards of Physiological Reviews, Pain, and Molecular Pain, and receives research support from Chiesi Farmaceutici, Merck Sharp & Dohme, Italian Institute of Technology, Regione Toscana, Italian Ministry of University and Research, and Ente Cassa di Risparmio di Firenze. M.R.M. receives research support from MIUR and Ente Cassa di Risparmio di Firenze. All other authors reported no biomedical financial interests or potential conflicts of interest. R.P. is full-time employee at Chiesi Farmaceutici SpA. The other authors declare no competing interests.
PY - 2013/12
Y1 - 2013/12
N2 - Although feverfew has been used for centuries to treat pain and headaches and is recommended for migraine treatment, the mechanism for its protective action remains unknown. Migraine is triggered by calcitonin gene-related peptide (CGRP) release from trigeminal neurons. Peptidergic sensory neurons express a series of transient receptor potential (TRP) channels, including the ankyrin 1 (TRPA1) channel. Recent findings have identified agents either inhaled from the environment or produced endogenously that are known to trigger migraine or cluster headache attacks, such as TRPA1 simulants. A major constituent of feverfew, parthenolide, may interact with TRPA1 nucleophilic sites, suggesting that feverfew's antimigraine effect derives from its ability to target TRPA1. We found that parthenolide stimulates recombinant (transfected cells) or natively expressed (rat/mouse trigeminal neurons) TRPA1, where it, however, behaves as a partial agonist. Furthermore, in rodents, after initial stimulation, parthenolide desensitizes the TRPA1 channel and renders peptidergic TRPA1-expressing nerve terminals unresponsive to any stimulus. This effect of parthenolide abrogates nociceptive responses evoked by stimulation of peripheral trigeminal endings. TRPA1 targeting and neuronal desensitization by parthenolide inhibits CGRP release from trigeminal neurons and CGRP-mediated meningeal vasodilatation, evoked by either TRPA1 agonists or other unspecific stimuli. TRPA1 partial agonism, together with desensitization and nociceptor defunctionalization, ultimately resulting in inhibition of CGRP release within the trigeminovascular system, may contribute to the antimigraine effect of parthenolide.
AB - Although feverfew has been used for centuries to treat pain and headaches and is recommended for migraine treatment, the mechanism for its protective action remains unknown. Migraine is triggered by calcitonin gene-related peptide (CGRP) release from trigeminal neurons. Peptidergic sensory neurons express a series of transient receptor potential (TRP) channels, including the ankyrin 1 (TRPA1) channel. Recent findings have identified agents either inhaled from the environment or produced endogenously that are known to trigger migraine or cluster headache attacks, such as TRPA1 simulants. A major constituent of feverfew, parthenolide, may interact with TRPA1 nucleophilic sites, suggesting that feverfew's antimigraine effect derives from its ability to target TRPA1. We found that parthenolide stimulates recombinant (transfected cells) or natively expressed (rat/mouse trigeminal neurons) TRPA1, where it, however, behaves as a partial agonist. Furthermore, in rodents, after initial stimulation, parthenolide desensitizes the TRPA1 channel and renders peptidergic TRPA1-expressing nerve terminals unresponsive to any stimulus. This effect of parthenolide abrogates nociceptive responses evoked by stimulation of peripheral trigeminal endings. TRPA1 targeting and neuronal desensitization by parthenolide inhibits CGRP release from trigeminal neurons and CGRP-mediated meningeal vasodilatation, evoked by either TRPA1 agonists or other unspecific stimuli. TRPA1 partial agonism, together with desensitization and nociceptor defunctionalization, ultimately resulting in inhibition of CGRP release within the trigeminovascular system, may contribute to the antimigraine effect of parthenolide.
KW - CGRP
KW - Migraine
KW - Parthenolide
KW - TRPA1
UR - http://www.scopus.com/inward/record.url?scp=84889014509&partnerID=8YFLogxK
U2 - 10.1016/j.pain.2013.08.002
DO - 10.1016/j.pain.2013.08.002
M3 - Article
SN - 0304-3959
VL - 154
SP - 2750
EP - 2758
JO - Pain
JF - Pain
IS - 12
ER -