Abstract
α-Conotoxins GI and MI belong to the 3/5 subfamily of α-conotoxins and potently inhibit muscular nicotinic acetylcholine receptors (nAChRs). To date, no 3/4- or 3/6-subfamily α-conotoxins have been reported to inhibit muscular nAChRs. In the present study, a series of new 3/4-, 3/6-, and 3/7-subfamily GI and MI variants were synthesized and functionally characterized by modifications of loop2. The results show that the 3/4-subfamily GI variant GI[∆8G]-II and the 3/6-subfamily variants GI[+13A], GI[+13R], and GI[+13K] displayed potent inhibition of muscular nAChRs expressed in Xenopus oocytes, with an IC50 of 45.4–73.4 nM, similar to or slightly lower than that of wild-type GI (42.0 nM). The toxicity of these GI variants in mice appeared to be about a half to a quarter of that of wild-type GI. At the same time, the 3/7-subfamily GI variants showed significantly lower in vitro potency and toxicity. On the other hand, similar to the 3/6-subfamily GI variants, the 3/6-subfamily MI variants MI[+14R] and MI[+14K] were also active after the addition of a basic amino acid, Arg or Lys, in loop2, but the activity was not maintained for the 3/4-subfamily MI variant MI[∆9G]. Interestingly, the disulfide bond connectivity “C1–C4, C2–C3” in the 3/4-subfamily variant GI[∆8G]-II was significantly more potent than the “C1–C3, C2–C4” connectivity found in wild-type GI and MI, suggesting that disulfide bond connectivity is easily affected in the rigid 3/4-subfamily α-conotoxins and that the disulfide bonds significantly impact the variants’ function. This work is the first to demonstrate that 3/4- and 3/6-subfamily α-conotoxins potently inhibit muscular nAChRs, expanding our knowledge of α-conotoxins and providing new motifs for their further modifications.
Highlights
Nicotinic acetylcholine receptors are a class of ligand-gated ion channel protein receptors that mediate rapid signal transmission between synapses [1,2]
The results showed that wild-type GI exhibited a strong inhibition of the rat muscular Nicotinic acetylcholine receptors (nAChRs), with an IC50 of 42.0 nM (Figure 4 and Inhibitory Activity of α-Conotoxins GI and MI Variants against Muscular nATable 1)
We synthesized a series of variants of α-conotoxins GI and MI
Summary
Nicotinic acetylcholine receptors (nAChRs) are a class of ligand-gated ion channel protein receptors that mediate rapid signal transmission between synapses [1,2]. They are widely distributed in the central and peripheral nervous systems and muscles [3]. Muscular nAChRs are composed of α1, β1, γ, δ, or ε subunits, and different subtypes of nAChRs mediate different pathophysiological functions [5]. Neuronal nAChRs are associated with a series of central nervous system dysfunctions, including pain, addiction, epilepsy, Alzheimer’s disease, Parkinson’s disease, and schizophrenia [6–8], while muscular nAChRs are associated with physiological functions (such as muscular movement and signal transmission) and pathophysiological conditions [1,5], including pain, myogenic diseases, muscular dystrophy, and myasthenia gravis. According to the number of residues in loop 1 and loop 2, α-conotoxins can be further divided into several structural subfamilies such as 3/5, 4/3, 4/4, 4/5, 4/6, and 4/7 subfamilies [12–14]
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