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A bivalent remipede toxin promotes calcium release via ryanodine receptor activation.

Michael J MaxwellChris ThekkedamCedric LamboleyYanni K-Y ChinTheodore CrawfordJennifer J SmithJunyu LiuXinying JiaIrina VetterDerek R LaverBradley S LaunikonisAngela DulhuntyEivind A B UndheimMehdi Mobli
Published in: Nature communications (2023)
Multivalent ligands of ion channels have proven to be both very rare and highly valuable in yielding unique insights into channel structure and pharmacology. Here, we describe a bivalent peptide from the venom of Xibalbanus tulumensis, a troglobitic arthropod from the enigmatic class Remipedia, that causes persistent calcium release by activation of ion channels involved in muscle contraction. The high-resolution solution structure of φ-Xibalbin3-Xt3a reveals a tandem repeat arrangement of inhibitor-cysteine knot (ICK) domains previously only found in spider venoms. The individual repeats of Xt3a share sequence similarity with a family of scorpion toxins that target ryanodine receptors (RyR). Single-channel electrophysiology and quantification of released Ca 2+ stores within skinned muscle fibers confirm Xt3a as a bivalent RyR modulator. Our results reveal convergent evolution of RyR targeting toxins in remipede and scorpion venoms, while the tandem-ICK repeat architecture is an evolutionary innovation that is convergent with toxins from spider venoms.
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