Venom variation and ontogenetic changes in the Crotalus molossus complex: insights into composition, activities, and antivenom neutralization

 

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Autors: Miguel, Borja, Castañeda Gaytán, Gamaliel, Alagon, Alejandro, Strickland, Jason L., Parkinson, Christopher L., Gutiérrez Martínez, Areli, Rodriguez Lopez, Bruno, Zarzosa, Vanessa, Lomonte, Bruno, Saviola, Anthony J., Fernández, Julián, Smith, Cara Francesca, Hansen, Kirk Charles, Pérez Robles, Armando, Castañeda Pérez, Sebastián, Hirst, Samuel R., Olvera Rodríguez, Felipe, Fernández Badillo, Leonardo, Sigala, Jesús, Jones, Jason, Montaño Ruvalcaba, Carlos, Ramírez Chaparro, Ricardo, Margres, Mark J., Acosta Campaña, Gerardo, Neri Castro, Edgar
Format: artículo original
Data de publicació:2025
Descripció:The Crotalus molossus complex consists of five to seven phylogenetically related lineages of black-tailed rattlesnakes widely distributed in Mexico. While previous studies have noted venom variation within specific lineages of the Crotalus molossus complex, a comprehensive characterization of interspecific and ontogenetic venom variations, their functional implications, and the neutralizing ability of the Mexican antivenom against these variants remains largely unexamined. Herein, using two proteomic approaches for five lineages (C. basiliscus, C. m. molossus, C. m. nigrescens, C. m. oaxacus, and C. ornatus) of the C. molossus complex we characterized the number of toxins and their relative abundance in the venom of individuals of varying sizes. All five lineages undergo ontogenetic venom composition shifts associated with snake length. However, the pattern of ontogenetic shifts varied among lineages. In some lineages, these shifts led to significant differences in proteolytic, phospholipase A2, and fibrinogenolytic activities. Venom in smaller C. basiliscus, C. m. nigrescens, and C. m. oaxacus individuals had lower LD50 values (more lethal) in mice. Whereas the venom lethality of C. m. nigrescens (both juvenile and adult) and C. m. oaxacus (adult) was several times higher in a mammalian (mouse) model than in a reptilian (iguana) model. Antivipmyn® showed different neutralizing potencies toward venom pools. Overall, our results indicated that even among closely related rattlesnake lineages, venom phenotypes may vary greatly, impacting their function and the efficacy of antivenom neutralization.
Pais:Kérwá
Institution:Universidad de Costa Rica
Repositorio:Kérwá
Idioma:Inglés
OAI Identifier:oai:kerwa.ucr.ac.cr:10669/104710
Accés en línia:https://www.sciencedirect.com/science/article/pii/S1532045625000109?via%3Dihub
https://hdl.handle.net/10669/104710
https://doi.org/10.1016/j.cbpc.2025.110129
Paraula clau:Venom
Crotalus molossus
Antivenom
Ontogeny
Neutralization
Crotoxin
Crotamine
Myotoxin
Mexico
LD50
Toxicology
Animal genetics
Mutation
Biodiversity