Novel omega-conotoxins from Conus catus discriminate among neuronal calcium channel subtypes |
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| Authors: | Lewis R J Nielsen K J Craik D J Loughnan M L Adams D A Sharpe I A Luchian T Adams D J Bond T Thomas L Jones A Matheson J L Drinkwater R Andrews P R Alewood P F |
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| Affiliation: | Centre for Drug Design and Development (3D Centre), Institute for Molecular Bioscience, Department of Physiology and Pharmacology, CSIRO Tropical Agriculture, and Queensland Agricultural Biotechnology Centre (QDPI), Australia. r.lewis@mailbox.uq.edu.au |
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| Abstract: | omega-Conotoxins selective for N-type calcium channels are useful in the management of severe pain. In an attempt to expand the therapeutic potential of this class, four new omega-conotoxins (CVIA-D) have been discovered in the venom of the piscivorous cone snail, Conus catus, using assay-guided fractionation and gene cloning. Compared with other omega-conotoxins, CVID has a novel loop 4 sequence and the highest selectivity for N-type over P/Q-type calcium channels in radioligand binding assays. CVIA-D also inhibited contractions of electrically stimulated rat vas deferens. In electrophysiological studies, omega-conotoxins CVID and MVIIA had similar potencies to inhibit current through central (alpha(1B-d)) and peripheral (alpha(1B-b)) splice variants of the rat N-type calcium channels when coexpressed with rat beta(3) in Xenopus oocytes. However, the potency of CVID and MVIIA increased when alpha(1B-d) and alpha(1B-b) were expressed in the absence of rat beta(3), an effect most pronounced for CVID at alpha(1B-d) (up to 540-fold) and least pronounced for MVIIA at alpha(1B-d) (3-fold). The novel selectivity of CVID may have therapeutic implications. (1)H NMR studies reveal that CVID possesses a combination of unique structural features, including two hydrogen bonds that stabilize loop 2 and place loop 2 proximal to loop 4, creating a globular surface that is rigid and well defined. |
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