Novel Calcin peptides from Scorpion Venom Exhibit Humidity-Dependent Expression and Ryanodine Receptor Activation

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Abstract

Scorpions are venomous animals of considerable pharmacological potential, traditionally used in East Asia to treat cardiovascular and autoimmune diseases. However, geographical variations in the expression of their venom components remain poorly understood. We performed transcriptome profiling on scorpion samples collected from eight distinct climatic and environmental regions in East Asia, we successfully identified two distinct scorpion species: Uroctonus mordax and Mesobuthus martensii . Furthermore, we identified two novel calcins from the venoms of these species, with their expression levels showing a significant correlation to environmental humidity. Functional assays revealed that these calcins differentially potentiate [³H]ryanodine binding to RyR isoforms and induce a persistent subconductance state, suggesting distinct mechanisms of action. Our findings suggest biogeographical variation in venom composition between species and suggest that environmental humidity as a key factor influencing calcin expression. These results expand the structural diversity of the calcin family and provide a mechanistic basis for the medicinal application and ecological adaptation of scorpion venom.

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