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  • Title: α-Elapitoxin-Aa2a, a long-chain snake α-neurotoxin with potent actions on muscle (α1)(2)βγδ nicotinic receptors, lacks the classical high affinity for neuronal α7 nicotinic receptors.
    Author: Blacklow B, Kornhauser R, Hains PG, Loiacono R, Escoubas P, Graudins A, Nicholson GM.
    Journal: Biochem Pharmacol; 2011 Jan 15; 81(2):314-25. PubMed ID: 20950587.
    Abstract:
    In contrast to all classical long-chain α-neurotoxins possessing the critical fifth disulfide bond, α-elapitoxin-Aa2a (α-EPTX-Aa2a), a novel long-chain α-neurotoxin from the common death adder Acanthophis antarcticus, lacks affinity for neuronal α7-type nicotinic acetylcholine receptors (nAChRs). α-EPTX-Aa2a (8850Da; 0.1-1μM) caused a concentration-dependent inhibition of indirect twitches, and blocked contractures to cholinergic agonists in the isolated chick biventer cervicis nerve-muscle preparation, consistent with a postsynaptic curaremimetic mode of action. α-EPTX-Aa2a (1-10nM) produced a potent pseudo-irreversible antagonism of chick muscle nAChRs, with an estimated pA(2) value of 8.311±0.031, which was not reversed by monovalent death adder antivenom. This is only 2.5-fold less potent than the prototypical long-chain α-neurotoxin, α-bungarotoxin. In contrast, α-EPTX-Aa2a produced complete, but weak, inhibition of (125)I-α-bungarotoxin binding to rat hippocampal α7 nAChRs (pK(I)=3.670), despite high sequence homology and similar mass to a wide range of long-chain α-neurotoxins. The mostly likely cause for the loss of α7 binding affinity is a leucine substitution, in loop II of α-EPTX-Aa2a, for the highly conserved Arg(33) in long-chain α-neurotoxins. Arg(33) has been shown to be critical for both neuronal and muscle activity. Despite this substitution, α-EPTX-Aa2a retains high affinity for muscle (α1)(2)βγδ nAChRs. This is probably as a result of an Arg(29) residue, previously shown to be critical for muscle (α1)(2)βγδ nAChR affinity, and highly conserved across all short-chain, but not long-chain, α-neurotoxins. α-EPTX-Aa2a therefore represents a novel atypical long-chain α-neurotoxin that includes a fifth disulfide but exhibits differential affinity for nAChR subtypes.
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