Chemical synthesis and characterization of maurocalcine, a scorpion toxin that activates Ca<sup>2+</sup> release channel/ryanodine receptors

Fajloun, Ziad; Kharrat, Riadh; Chen, L.; Lecomte, Conrad; Luccio, Eric di; Bichet, Delphine; Ayeb, Mohamed El; Rochat, Hervé; Allen, Paul D.; Pessah, Isaac N.; Waard, Michel De; Sabatier, Jean‐Marc

doi:10.1016/s0014-5793(00)01239-4

Cited by 100 publications

(102 citation statements)

References 26 publications

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“…In the venom mixture, there are peptides that are specialized against vertebrates, invertebrates, or active against both. Members of all three groups are well characterized and include peptides that target all of the major ion channel types such as Na ϩ , K ϩ , Cl Ϫ , Ca 2ϩ , and ryanodine-sensitive Ca 2ϩ channels (9)(10)(11)(12). The devastating potency of the venom is caused by its ability to target multiple types of ion channels simultaneously, resulting in a massive and recurring depolarization that disables or kills the prey or predator.…”

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confidence: 99%

One scorpion, two venoms: Prevenom ofParabuthus transvaalicusacts as an alternative type of venom with distinct mechanism of action

Inceoglu

Langó

Jie

et al. 2003

Proc. Natl. Acad. Sci. U.S.A.

152

105

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Scorpion venom is a complex mixture of salts, small molecules, peptides, and proteins. Scorpions employ this valuable tool in several sophisticated ways for subduing prey, deterring predators, and possibly during mating. Here, a subtle but clever strategy of venom utilization by scorpions is reported. Scorpions secrete a small quantity of transparent venom when initially stimulated that we propose to name prevenom. If secretion continues, a cloudy and dense venom that is white in color is subsequently released. The prevenom contains a combination of high K ؉ salt and several peptides including some that block rectifying K ؉ channels and elicit significant pain and toxicity because of a massive local depolarization. The presence of high extracellular K ؉ in the prevenom can depolarize cells and also decrease the local electrochemical gradient making it more difficult to reestablish the resting potential. When this positive change to the K ؉ equilibrium potential is combined with the blockage of rectifying K ؉ channels, this further delays the recovery of the resting potential, causing a prolonged effect. We propose that the prevenom of scorpions is used as a highly efficacious predator deterrent and for immobilizing small prey while conserving metabolically expensive venom until a certain level of stimuli is reached, after which the venom is secreted.

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confidence: 99%

One scorpion, two venoms: Prevenom ofParabuthus transvaalicusacts as an alternative type of venom with distinct mechanism of action

Inceoglu

Langó

Jie

et al. 2003

Proc. Natl. Acad. Sci. U.S.A.

152

105

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“…Recently, maurocalcine (MCa), a novel peptide isolated from the venom of the scorpion Scorpio maurus palmatus, has been found to possess 82% sequence identity with IpTx a (27,28). MCa shares the highly basic structural domain identified in peptide A and IpTx a important for interactions with RyR1.…”

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confidence: 99%

“…MCa shares the highly basic structural domain identified in peptide A and IpTx a important for interactions with RyR1. Preliminary work has shown that synthetic MCa (sMCa) activates RyR1 channels by inducing long living subconductance states (27). Both IpTx a -and sMCa-modified channels can reversibly transit between subconductance states and fast gating states.…”

mentioning

confidence: 99%

“…However, the predominant subconductance induced by sMCa differs from that of IpTx a . At a holding potential of ϩ40 mV, the predominant substates induced by sMCa and IpTx a are 48 and 28% of the full conductance, respectively, suggesting that the structural difference in these peptides may induce slightly different channel conformations that stabilize different unitary conductances (25,27).…”

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confidence: 99%

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Maurocalcine and Peptide A Stabilize Distinct Subconductance States of Ryanodine Receptor Type 1, Revealing a Proportional Gating Mechanism

Chen

Estève

Sabatier

et al. 2003

Journal of Biological Chemistry

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Maurocalcine (MCa) isolated from Excitation-contraction (EC)1 coupling in muscle cells is the signaling process by which electrical stimuli arriving at the transverse tubule membrane transmit information to the sarcoplasmic reticulum (SR) to release intracellular Ca 2ϩ necessary for muscle contraction. Skeletal type and cardiac type EC coupling differ in their dependence on extracellular Ca 2ϩ entry. Functional interaction between dihydropyridine receptors (DHPRs) within the transverse tubule and Ca 2ϩ release channels/ryanodine receptors (RyRs) within SR defines the type of EC coupling and its underlying mechanism. During cardiac EC coupling, a small influx of Ca 2ϩ through cardiac DHPRs is required to open RyR2 (1-5), whereas skeletal type EC coupling does not require entry of external Ca 2ϩ . Instead, membrane depolarization triggers the opening of RyR1 through a mechanism involving conformational coupling of skeletal DHPRs (␣ 1s -subunit) and RyR1 (6 -8).Expression of cDNAs encoding cardiac/skeletal muscle chimeric ␣ 1 -DHPRs in dysgenic myotubes, which lack endogenous ␣ 1s -DHPR, identified the a site within the cytoplasmic loop between repeats II and III (the cytosolic II-III loop; amino acids 666 -791) essential for the physical coupling with RyRs and skeletal EC coupling (9, 10). Experiments with the full-length skeletal II-III loop peptide showed specific activation of RyR1 but not RyR2 channels incorporated into planar lipid bilayers and in radioligand binding studies with [3 H]ryanodine (11,12). The domain within the skeletal II-III loop peptide essential for RyR1 activity was further refined to the region between Arg 681 and Leu 690 termed peptide A (pA) (13,14). Studies of how pA modifies single channel gating behavior revealed both activating and inhibitory properties on RyR1 depending on the concentration, the free cis Ca 2ϩ concentration, and the holding potential (12, 15). These actions of pA were also found to extend to RyR2, suggesting a modulatory influence downstream of the skeletal ␣ 1s -DHPR/RyR1 interaction (12). However, expression of ␣ 1s -DHPR chimeras in dysgenic myotubes has shown that the pA region of the II-III loop was not essential for engaging skeletal type EC coupling (16), whereas a 46-amino acid fragment (Leu 720 -Gln 765 ) was essential for bidirectional signaling (9,(17)(18)(19). Although the action of pA and related peptides may not be directly involved in mediating bidirectional signaling in skeletal EC coupling, they are very useful in defining basic properties of RyR gating.

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“…Ce peptide de 33 acides aminés fut identifié grâce à son activité pharmacologique en tant qu'activateur du récepteur à la ryanodine (RyR1) des muscles squelettiques. La cible est particulièrement originale puisqu'il s'agit d'un canal calcique intracellulaire impliqué dans le couplage excitation-contraction [6]. Ces observations avaient laissé entrevoir la possibilité que la maurocalcine devait traverser la bicouche lipidique des cellules afin d'exercer sa fonction d'activateur de canal calcique.…”

Section: Peptides De Pénétration Cellulaire Et Mécanisme D'entrée Celunclassified

Administration de molécules actives dans les cellules

Poillot

Waard

2011

Med Sci (Paris)

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Chemical synthesis and characterization of maurocalcine, a scorpion toxin that activates Ca²⁺ release channel/ryanodine receptors

Cited by 100 publications

References 26 publications

One scorpion, two venoms: Prevenom ofParabuthus transvaalicusacts as an alternative type of venom with distinct mechanism of action

One scorpion, two venoms: Prevenom ofParabuthus transvaalicusacts as an alternative type of venom with distinct mechanism of action

Maurocalcine and Peptide A Stabilize Distinct Subconductance States of Ryanodine Receptor Type 1, Revealing a Proportional Gating Mechanism

Administration de molécules actives dans les cellules

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Chemical synthesis and characterization of maurocalcine, a scorpion toxin that activates Ca2+ release channel/ryanodine receptors

Cited by 100 publications

References 26 publications

One scorpion, two venoms: Prevenom ofParabuthus transvaalicusacts as an alternative type of venom with distinct mechanism of action

One scorpion, two venoms: Prevenom ofParabuthus transvaalicusacts as an alternative type of venom with distinct mechanism of action

Maurocalcine and Peptide A Stabilize Distinct Subconductance States of Ryanodine Receptor Type 1, Revealing a Proportional Gating Mechanism

Administration de molécules actives dans les cellules

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Chemical synthesis and characterization of maurocalcine, a scorpion toxin that activates Ca²⁺ release channel/ryanodine receptors