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J. Biol. Chem., Vol. 280, Issue 6, 5045-5053, February 11, 2005
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-Toxins and Elements That Confer Specificity for Insect and Mammalian Voltage-gated Sodium Channels*
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From the
Departments of Plant Sciences, George S. Wise Faculty of Life Sciences and ¶Physiology and Pharmacology, Sackler School of Medicine, Tel-Aviv University, Ramat-Aviv 69978, Tel-Aviv, Israel and CEA, Department d'Ingenierie et d'Etudes des Proteines, C. E. Saclay, F-91191 Gif Sur Yvette Cedex, France
Scorpion 
-toxins that affect the activation of mammalian voltage-gated sodium channels (Navs) have been studied extensively, but little is known about their functional surface and mode of interaction with the channel receptor. To enable a molecular approach to this question, we have established a successful expression system for the anti-mammalian scorpion -toxin, Css4, whose effects on rat brain Navs have been well characterized. A recombinant toxin, His-Css4, was obtained when fused to a His tag and a thrombin cleavage site and had similar binding affinity for and effect on Na currents of rat brain sodium channels as those of the native toxin isolated from the scorpion venom. Molecular dissection of His-Css4 elucidated a functional surface of 1245 Å2 composed of the following: 1) a cluster of residues associated with the 
-helix, which includes a putative "hot spot" (this cluster is conserved among scorpion -toxins and contains their "pharmacophore"); 2) a hydrophobic cluster associated mainly with the 2 and 3 strands, which is likely to confer the specificity for mammalian Navs; 3) a single bioactive residue (Trp-58) in the C-tail; and 4) a negatively charged residue (Glu-15) involved in voltage sensor trapping as inferred from our ability to uncouple toxin binding from activity upon its substitution. This study expands our understanding about the mode of action of scorpion -toxins and illuminates differences in the functional surfaces that may dictate their specificities for mammalian versus insect sodium channels.
Received for publication, July 26, 2004 , and in revised form, November 8, 2004.
* This work was supported in part by United States-Israel Binational Agricultural Research and Development Grants IS-3259-01 (to D. G. and M. G.) and IS-3480-03 (to M. G. and D. G.), Israeli Science Foundation Grants 508/00 (to D. G.) and 733/01 (to M. G.), and German-Israeli Foundation for Scientific Research and Development Grant G-770-242.1/2002 (to D. G.). The costs of publication of this article were defrayed in part by the payment of page charges. This article must therefore be hereby marked "advertisement" in accordance with 18 U.S.C. Section 1734 solely to indicate this fact.
|| To whom correspondence may be addressed. Tel.: 972-3-6409844; Fax: 972-3-6406100; E-mail: dgordon{at}post.tau.ac.il. ** To whom correspondence may be addressed. Tel.: 972-3-6409844; Fax: 972-3-6406100; E-mail: mamgur{at}post.tau.ac.il.
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