Zhu S et al. (2011), Molecular diversity and functional evolution of...

XB-ART-43561

Mol Cell Proteomics 2011 Feb 01;102:M110.002832. doi: 10.1074/mcp.M110.002832.

Show Gene links Show Anatomy links

Molecular diversity and functional evolution of scorpion potassium channel toxins.

Zhu S , Peigneur S , Gao B , Luo L , Jin D , Zhao Y , Tytgat J .

???displayArticle.abstract???
Scorpion toxins affecting K(+) channels (KTxs) represent important pharmacological tools and potential drug candidates. Here, we report molecular characterization of seven new KTxs in the scorpion Mesobuthus eupeus by cDNA cloning combined with biochemical approaches. Comparative modeling supports that all these KTxs share a conserved cysteine-stabilized α-helix/β-sheet structural motif despite the differences in protein sequence and size. We investigated functional diversification of two orthologous α-KTxs (MeuTXKα1 from M. eupeus and BmP01 from Mesobuthus martensii) by comparing their K(+) channel-blocking activities. Pharmacologically, MeuTXKα1 selectively blocked Kv1.3 channel with nanomolar affinity (IC(50), 2.36 ± 0.9 nM), whereas only 35% of Kv1.1 currents were inhibited at 3 μM concentration, showing more than 1271-fold selectivity for Kv1.3 over Kv1.1. This peptide displayed a weak effect on Drosophila Shaker channel and no activity on Kv1.2, Kv1.4, Kv1.5, Kv1.6, and human ether-a-go-go-related gene (hERG) K(+) channels. Although BmB01 and MeuTXKα1 have a similar channel spectrum, their affinity and selectivity for these channels largely varies. In comparison with MeuTXKα1, BmP01 only exhibits a submicromolar affinity (IC(50), 133.72 ± 10.98 nM) for Kv1.3, showing 57-fold less activity than MeuTXKα1. Moreover, it lacks the ability to distinguish between Kv1.1 and Kv1.3. We also found that MeuTXKα1 inhibited the proliferation of activated T cells induced by phorbol myristate acetate and ionomycin at micromolar concentrations. Our results demonstrate that accelerated evolution drives affinity variations of orthologous α-KTxs on Kv channels and indicate that MeuTXKα1 is a promising candidate to develop an immune modulation agent for human autoimmune diseases.

???displayArticle.pubmedLink??? 20889474
???displayArticle.pmcLink??? PMC3033675
???displayArticle.link??? Mol Cell Proteomics

References [+] :

Abbas, A new Kaliotoxin selective towards Kv1.3 and Kv1.2 but not Kv1.1 channels expressed in oocytes. 2008, Pubmed, Xenbase

Abbas, A new Kaliotoxin selective towards Kv1.3 and Kv1.2 but not Kv1.1 channels expressed in oocytes. 2008, Pubmed , Xenbase
Abdel-Mottaleb, The first potassium channel toxin from the venom of the Iranian scorpion Odonthobuthus doriae. 2006, Pubmed , Xenbase
Abdel-Mottaleb, OdK2, a Kv1.3 channel-selective toxin from the venom of the Iranian scorpion Odonthobuthus doriae. 2008, Pubmed , Xenbase
Bontems, Refined structure of charybdotoxin: common motifs in scorpion toxins and insect defensins. 1991, Pubmed
Buisine, Characterization of a new family of toxin-like peptides from the venom of the scorpion Leiurus quinquestriatus hebraeus. 1H-NMR structure of leiuropeptide II. 1997, Pubmed
Cao, Expression, purification and functional characterization of a recombinant scorpion venom peptide BmTXKbeta. 2003, Pubmed
Corzo, A selective blocker of Kv1.2 and Kv1.3 potassium channels from the venom of the scorpion Centruroides suffusus suffusus. 2008, Pubmed
Dauplais, On the convergent evolution of animal toxins. Conservation of a diad of functional residues in potassium channel-blocking toxins with unrelated structures. 1997, Pubmed
Diego-García, Wide phylogenetic distribution of Scorpine and long-chain beta-KTx-like peptides in scorpion venoms: identification of "orphan" components. 2007, Pubmed
Diego-García, Cytolytic and K+ channel blocking activities of beta-KTx and scorpine-like peptides purified from scorpion venoms. 2008, Pubmed
Gao, A potent potassium channel blocker from Mesobuthus eupeus scorpion venom. 2010, Pubmed , Xenbase
Garcia, Potassium channels: from scorpion venoms to high-resolution structure. 2001, Pubmed
Gauldie, The peptide components of bee venom. 1976, Pubmed
Gmachl, The precursors of the bee venom constituents apamin and MCD peptide are encoded by two genes in tandem which share the same 3'-exon. 1995, Pubmed
Goudet, An overview of toxins and genes from the venom of the Asian scorpion Buthus martensi Karsch. 2002, Pubmed
Gurrola, A toxin to nervous, cardiac, and endocrine ERG K+ channels isolated from Centruroides noxius scorpion venom. 1999, Pubmed
Han, Structural basis of a potent peptide inhibitor designed for Kv1.3 channel, a therapeutic target of autoimmune disease. 2008, Pubmed
Kharrat, Chemical synthesis and characterization of maurotoxin, a short scorpion toxin with four disulfide bridges that acts on K+ channels. 1996, Pubmed
Koradi, MOLMOL: a program for display and analysis of macromolecular structures. 1996, Pubmed
Korolkova, An ERG channel inhibitor from the scorpion Buthus eupeus. 2001, Pubmed
Liman, Subunit stoichiometry of a mammalian K+ channel determined by construction of multimeric cDNAs. 1992, Pubmed , Xenbase
MacKinnon, Structural conservation in prokaryotic and eukaryotic potassium channels. 1998, Pubmed
Mao, Cloning and characterization of BmK86, a novel K+ -channel blocker from scorpion venom. 2007, Pubmed
Mouhat, K+ channel types targeted by synthetic OSK1, a toxin from Orthochirus scrobiculosus scorpion venom. 2005, Pubmed
Possani, Peptides and genes coding for scorpion toxins that affect ion-channels. 2000, Pubmed
Possani, Scorpion toxins specific for Na+-channels. 1999, Pubmed
Regaya, Evidence for domain-specific recognition of SK and Kv channels by MTX and HsTx1 scorpion toxins. 2004, Pubmed
Rodríguez de la Vega, Current views on scorpion toxins specific for K+-channels. 2004, Pubmed
Romi-Lebrun, Characterization of four toxins from Buthus martensi scorpion venom, which act on apamin-sensitive Ca2+-activated K+ channels. 1997, Pubmed
Shieh, Potassium channels: molecular defects, diseases, and therapeutic opportunities. 2000, Pubmed
Srinivasan, kappa-Hefutoxin1, a novel toxin from the scorpion Heterometrus fulvipes with unique structure and function. Importance of the functional diad in potassium channel selectivity. 2002, Pubmed
Takacs, A designer ligand specific for Kv1.3 channels from a scorpion neurotoxin-based library. 2009, Pubmed , Xenbase
Thompson, Isolation and characterization of a high affinity peptide inhibitor of ClC-2 chloride channels. 2009, Pubmed , Xenbase
Tytgat, A unified nomenclature for short-chain peptides isolated from scorpion venoms: alpha-KTx molecular subfamilies. 1999, Pubmed
Wang, A potential side effect of cyclosporin A: inhibition of CD4(+)CD25(+) regulatory T cells in mice. 2006, Pubmed
Wu, Solution structure of BmP01 from the venom of scorpion Buthus martensii Karsch. 2000, Pubmed
Wulff, Voltage-gated potassium channels as therapeutic targets. 2009, Pubmed
Yin, Different residues in channel turret determining the selectivity of ADWX-1 inhibitor peptide between Kv1.1 and Kv1.3 channels. 2008, Pubmed
Zhu, MeuTXKbeta1, a scorpion venom-derived two-domain potassium channel toxin-like peptide with cytolytic activity. 2010, Pubmed
Zhu, Molecular characterization of a new scorpion venom lipolysis activating peptide: Evidence for disulfide bridge-mediated functional switch of peptides. 2006, Pubmed