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Smartox/Waglerin-1 blocks muscle nAChRs/WAG002-00500/0.5mg

作者: 时间:2024-11-10 点击量:

Waglerin-1 (Wtx-1) is a peptide originally isolated from the venom of the Wagler’s pit viper (Trimeresurus wagleri). This 22 amino-acid peptide is a competitive antagonist of adult muscle nicotinic acetylcholine receptors. Waglerin-1 binds selectively to epsilon subunit of nAChR. Some studies have demonstrated that Waglerin-1 has an effect on ionotropic GABA receptors. It may potentiate or depress I(GABA) depending on the neurons. Some derivatives of Waglerin-1 are currently used in cosmetics to reduce wrinkles. The fluorescent derivative Waglerin-1-FAM can be use to explore the expression and function of the adult nAChR subtypes.

Description:

Product code: WAG002.Category: Nicotinic Acetylcholine Receptor.Tags: bungarotoxin, nachr, nicotinic.

AA sequence:  FAM-Gly-Gly-Lys-Pro-Asp-Leu-Arg-Pro-Cys9-His-Pro-Pro-Cys13-His-Tyr-Ile-Pro-Arg-Pro-Lys-Pro-Arg-OHDisulfide bonds: Cys9-Cys13Length (aa): 22Formula: C133H185N37O32S2Molecular Weight: 2878.27 DaCAS number: NASource: SyntheticFluorescent dye: FAM, 5(6)-carboxyfluorescein (λex 492, λem 517)

Reference:

Peptide-toxin tools for probing the expression and function of fetal and adult subtypes of the nicotinic acetylcholine receptor

Although the neuromuscular nicotinic acetylcholine receptor (nAChR) is one of the most intensively studied ion channels in the nervous system, the differential roles of fetal and adult subtypes of the nAChR under normal and pathological conditions are still incompletely defined. Until recently, no pharmacological tools distinguished between fetal and adult subtypes. Waglerin toxins (from snake venom) & alphaA(S)-conotoxins (from cone-snail venom) have provided such tools. Because these peptides were characterized by different research groups using different methods, we have: 1) more extensively tested their subtype selectivity, and 2) begun to explore how these peptides may be used in concert to elucidate expression patterns and functions of fetal and adult nAChRs. In heterologous expression systems and native tissues, Waglerin-1 & an alphaA(S)-conotoxin analog, alphaA-OIVA[K15N], are high-affinity, highly selective inhibitors of the adult and fetal muscle nAChRs, respectively. We have used the peptides and their fluorescent derivatives to explore the expression and function of the fetal and adult nAChR subtypes. While fluorescent derivatives of these peptides indicated a gradual transition from fetal to adult muscle nAChRs in mice during the first 2 weeks postnatal, we unexpectedly observed a steeper transition in functional expression in the mouse diaphragm muscle using electrophysiology. As a toolkit of pharmacological agents with complementary specificity, alphaA-OIVA[K15N] & Waglerin-1 should have further utility in determining the roles of fetal & adult nAChR subtypes in development, in mature tissues, and under pathological conditions.

Teichert RW. et al. Peptide-toxin tools for probing the expression and function of fetal and adult subtypes of the nicotinic acetylcholine receptor. Ann N Y Acad Sci. PMID: 18567854

Conformational analysis of a toxic peptide from Trimeresurus wagleri which blocks the nicotinic acetylcholine receptor
The 22-residue toxic peptide (WTX1) from the venom of the Southeast Asian snake Trimeresurus wagleri has multiple sites of action, but its lethal effect has been attributed to blocking the postsynaptic acetylcholine receptor at the neuromuscular junction. The 3-dimensional structure of WTX1 was studied using 2-dimensional nuclear magnetic resonance spectroscopy, circular dichroism, and computer simulations. In aqueous solution, WTX1 was shown to have extended and flexible “tails” defined by a short, rigid disulfide-bonded loop. The flexible regions can undergo structural rearrangement when moved from an aqueous to a less polar environment and may contribute to its effectiveness at different receptor sites. By substituting Gly or Phe for His at position 10, significant effects on the disulfide bond formation and, thereby, the activity of the peptide were observed. These results suggest that even subtle differences in single residues can have profound effects on the dynamics of folding, disulfide bond formation, & activity of this toxic peptide.

Sellin LC. et al. Conformational analysis of a toxic peptide from Trimeresurus wagleri which blocks the nicotinic acetylcholine receptor. Biophys J. 1996. PMID: 8770182

Identification of residues at the alpha and epsilon subunit interfaces mediating species selectivity of Waglerin-1 for nicotinic acetylcholine receptors
Waglerin-1 (Wtx-1) is a 22-amino acid peptide that is a competitive antagonist of the muscle nicotinic receptor (nAChR). We find that Wtx-1 binds 2100-fold more tightly to the alpha-epsilon than to the alpha-delta binding site interface of the mouse nAChR. Moreover, Wtx-1 binds 100-fold more tightly to the alpha-epsilon interface from mouse nAChR than that from rat or human sources. Site-directed mutagenesis of residues differing in the extracellular domains of rat and mouse epsilon subunits indicates that residues 59 and 115 mediate the species difference in Wtx-1 affinity. Mutation of residues 59 (Asp in mouse, Glu in rat epsilon) and 115 (Tyr in mouse, Ser in rat epsilon) converts Wtx-1 affinity for the alpha-epsilon interface of one species to that of the other species. Studies of different mutations at position 59 indicate both steric and electrostatic contributions to Wtx-1 affinity, whereas at position 115, both aromatic and polar groups contribute to affinity. The human nAChR also has lower affinity for Wtx-1 than mouse nAChR, but unlike rat nAChR, residues in both alpha and epsilon subunits mediate the affinity difference. In human nAChR, polar residues (Ser-187 and Thr-189) confer low affinity, whereas in mouse nAChR aromatic residues (Trp-187 and Phe-189) confer high affinity. The overall results show that non-conserved residues at the nAChR binding site, although not crucial for activation by ACh, govern the potency of neuromuscular toxins.

Molles BE. et al. Identification of residues at the alpha and epsilon subunit interfaces mediating species selectivity of Waglerin-1 for nicotinic acetylcholine receptors. J Biol Chem. 2002. PMID: 11724791

Waglerin-1 selectively blocks the epsilon form of the muscle nicotinic acetylcholine receptor
Neonatal mice resist the lethal effect of Waglerin-1. Because Waglerin-1 blocks the nicotinic acetylcholine receptor of mature end-plates, the appearance of lethality may result from the epsilon- for gamma-subunit substitution. In support of this hypothesis, adult knockout (KO) mice lacking the gene coding for the epsilon-subunit resist the lethal effect of Waglerin-1. In contrast, heterozygous litter mates respond to Waglerin-1 like adult wild-type mice. In vitro application of 1 microM Waglerin-1 inhibited spontaneous miniature end-plate potentials and evoked end-plate potentials of adult wild-type and heterozygous KO mice. Both miniature end-plate potentials and end-plate potentials of neonatal wild-type and adult homozygous KO mice resisted Waglerin-1. Waglerin-1 decreased the end-plate response of adult wild-type mice to iontophoretically applied acetylcholine (ACh) with an IC50 value of 50 nM; 1 microM Waglerin-1 decreased the ACh response to 4 +/- 1% of control for adult heterozygous KO mice. In contrast, 1 microM Waglerin-1 decreased the ACh response to 73 +/- 2% of control for wild-type mice less than 11 days old and had no effect on the ACh response of adult homozygous KO mice. Between 11 and 12 days after birth, the suppressant effect of Waglerin-1 on wild-type end-plate responses to ACh dramatically increased. Waglerin-1 reduced binding of alpha-bungarotoxin to end-plates of adult but not neonatal wild-type mice. These data demonstrate that Waglerin-1 selectively blocks the mouse muscle nicotinic acetylcholine receptor containing the epsilon-subunit.

McArdle JJ. et al. Waglerin-1 selectively blocks the epsilon form of the muscle nicotinic acetylcholine receptor. J Pharmacol Exp Ther. PMID: 10087048

Waglerin-1 inhibits GABA(A) current of neurons in the nucleus accumbens of neonatal rats. Brain Res

The effect of Waglerin-1, a 22-amino acid peptide purified from the venom of Wagler’s pit viper on the whole cell current response (I(GABA)) to gamma-aminobutyric acid (GABA) was examined for neurons freshly isolated from the nucleus accumbens of 3- to 7-day-old rats. Waglerin-1 depressed I(GABA) induced by subsaturating concentrations of GABA; the IC(50) for I(GABA) induced by 10 microM GABA was 2.5 microM Waglerin-1. This concentration of Waglerin-1 shifted the GABA concentration-response curve to the right in a parallel manner, increasing the GABA EC(50) from 12+/-3 to 27+/-5 microM. The depressant effect of Waglerin-1 was greater at negative holding potentials. Zn(2+) also inhibited I(GABA) with an IC(50) of 0.3 microM. Phosphorylation state appeared to modulate GABA(A) receptor sensitivity to the inhibitory effect of Waglerin-1 since dialysis of neurons with N-[2-((p-bromocinnamyl)amino)ethyl]-5-isoquinolinesulfonamide HCl (H-89), an inhibitor of protein kinase A, prevented inhibition. The data are discussed in terms of developmental influences on the subunit composition of GABA(A) receptors in neurons of the nucleus accumbens.

Ye JH. et al. Waglerin-1 inhibits GABA(A) current of neurons in the nucleus accumbens of neonatal rats. Brain Res. 1999. PMID: 10433985

Waglerin-1 modulates gamma-aminobutyric acid activated current of murine hypothalamic neurons
We examined the effect of Waglerin-1, a peptide of 22 amino acid residues purified from the venom of Wagler’s pit viper (Trimeresurus wagleri), on the whole cell current response (I(GABA)) of freshly isolated murine hypothalamic neurons to gamma-aminobutyric acid (GABA). Although the application of 32 microM Waglerin-1 alone had no effect on membrane conductance, coapplication with GABA increased I(GABA) for 78 and suppressed I(GABA) for 44 of the 141 neurons examined. The potentiating effect of Waglerin-1 was associated with a leftward shift of the concentration-response relation of GABA without increasing peak I(GABA). This potentiating effect of Waglerin-1 on I(GABA) mimics diazepam. Furthermore, the benzodiazepine antagonist flumazenil antagonized Waglerin-1 potentiation of I(GABA), These observations suggest that Waglerin-1 acts on the benzodiazepine site of one type of GABA(A) receptor/channel complex to increase its affinity for agonist. In contrast, the depressant effect of Waglerin-1 was associated with a rightward shift of the concentration-response relation of GABA without depressing the maximal I(GABA); this suggests a competitive inhibition of a second class of GABAR. The ability of Waglerin-1 to suppress I(GABA) showed a positive correlation with a similar action of Zn++. As with Zn++, the depressant effect of Waglerin-1 on I(GABA) was more pronounced at negative holding potentials. These observations are discussed in terms of variation in the subunit composition of GABA receptors that murine central nervous system neurons express.

Ye JH. et al. Waglerin-1 modulates gamma-aminobutyric acid activated current of murine hypothalamic neurons. J Pharmacol Exp Ther. PMID: 9223541

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