1. A novel µ-conopeptide, CnIIIC, exerts potent and preferential inhibition of NaV1.2/1.4 channels and blocks neuronal nicotinic acetylcholine receptors
- Author
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Philippe Favreau, Rolf Boelens, Jordi Molgó, Hubert François Gaertner, Daniel Bertrand, Jan Tytgat, Enrico Leipold, Henry G. Hocking, Ludovic Carlier, Dieter D' hoedt, Reto Stöcklin, Marco Cordova, Sébastien Schlumberger, René Markgraf, Oliver Hartley, Evelyne Benoit, Marianne Paolini-Bertrand, and Stefan H. Heinemann
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Pharmacology ,0303 health sciences ,Sodium channel ,030302 biochemistry & molecular biology ,Biology ,Potassium channel ,3. Good health ,03 medical and health sciences ,Nicotinic acetylcholine receptor ,Nicotinic agonist ,medicine ,Biophysics ,Conotoxin ,Nicotinic Antagonist ,medicine.symptom ,Neuroscience ,030304 developmental biology ,Acetylcholine receptor ,Muscle contraction - Abstract
BACKGROUND AND PURPOSE The µ-conopeptide family is defined by its ability to block voltage-gated sodium channels (VGSCs), a property that can be used for the development of myorelaxants and analgesics. We characterized the pharmacology of a new µ-conopeptide (µ-CnIIIC) on a range of preparations and molecular targets to assess its potential as a myorelaxant. EXPERIMENTAL APPROACH µ-CnIIIC was sequenced, synthesized and characterized by its direct block of elicited twitch tension in mouse skeletal muscle and action potentials in mouse sciatic and pike olfactory nerves. µ-CnIIIC was also studied on HEK-293 cells expressing various rodent VGSCs and also on voltage-gated potassium channels and nicotinic acetylcholine receptors (nAChRs) to assess cross-interactions. Nuclear magnetic resonance (NMR) experiments were carried out for structural data. KEY RESULTS Synthetic µ-CnIIIC decreased twitch tension in mouse hemidiaphragms (IC50= 150 nM), and displayed a higher blocking effect in mouse extensor digitorum longus muscles (IC = 46 nM), compared with µ-SIIIA, µ-SmIIIA and µ-PIIIA. µ-CnIIIC blocked NaV1.4 (IC50= 1.3 nM) and NaV1.2 channels in a long-lasting manner. Cardiac NaV1.5 and DRG-specific NaV1.8 channels were not blocked at 1 µM. µ-CnIIIC also blocked the α3β2 nAChR subtype (IC50= 450 nM) and, to a lesser extent, on the α7 and α4β2 subtypes. Structure determination of µ-CnIIIC revealed some similarities to α-conotoxins acting on nAChRs. CONCLUSION AND IMPLICATIONS µ-CnIIIC potently blocked VGSCs in skeletal muscle and nerve, and hence is applicable to myorelaxation. Its atypical pharmacological profile suggests some common structural features between VGSCs and nAChR channels.
- Published
- 2012
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