Tityus caripitensis is responsible for most of scorpion stings related to human incidents in Northeastern Venezuela. The only treatment for scorpion envenomation is immunotherapy based on administration of scorpion anti-venom produced in horses. Avian antibodies (IgY) isolated from chicken egg yolks represent a new alternative to be applied as anti-venom therapy. For this reason, we produced IgY antibodies against T. caripitensis scorpion venom and evaluated its neutralizing capacity. The anti-scorpion venom antibodies were purified by precipitation techniques with polyethylene glycol and evaluated by Multiple Antigen Blot Assay (MABA), an indirect ELISA, and Western blot assays. The lethality neutralization was evaluated by preincubating the venom together with the anti-venom prior to testing. The IgY immunoreactivity was demonstrated by a dose-dependent inhibition in Western blot assays where antibodies pre-absorbed with the venom did not recognize the venom proteins from T. caripitensis. The anti-venom was effective in neutralizing 2LD50 doses of T. caripitensis venom (97.8 mg of IgY neutralized 1 mg of T. caripitensis venom). Our results support the future use of avian anti-scorpion venom as an alternative to conventional equine anti-venom therapy in our country.
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Venom characterization of Venezuelan scorpion Tityus caripitensis.
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Fundación Instituto de Estudios Avanzados (IDEA), Carretera Nacional Hoyo de la Puerta, Valle de Sartenejas, Baruta, Venezuela.
Article Synopsis
- Tityus caripitensis is an endemic scorpion from northeastern Venezuela, causing sting incidents, and this study is the first to explore its venom's biological, biochemical, and electrophysiological properties.
- The venom exhibits toxicity to mice with an LD50 of 20.2 μg/gr, and SDS-PAGE analysis identified 7 protein fractions, including potential neurotoxins in the 6-8 kDa range.
- The venom caused significant changes in blood chemistry and affected sodium and potassium ion channels, and while it is less toxic than Tityus discrepans, they share molecular similarities that are important for antivenom treatment.
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Centro de Biociencias y Medicina Molecular, Instituto de Estudios Avanzados-IDEA, Apartado 17606, Caracas 1015-A, Venezuela.
Tityus caripitensis is responsible for most of scorpion stings related to human incidents in Northeastern Venezuela. The only treatment for scorpion envenomation is immunotherapy based on administration of scorpion anti-venom produced in horses. Avian antibodies (IgY) isolated from chicken egg yolks represent a new alternative to be applied as anti-venom therapy.
View Article and Find Full Text PDFScorpion venom complexity fractal analysis. Its relevance for comparing venoms.
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