info:eu-repo/semantics/article
Synthetic peptide to produce antivenoms against arachnids Cys-rich toxins
Fecha
2020-06Registro en:
Camperi, Silvia Andrea; Acosta, Gerardo; Barredo, Gabriela Romina; Iglesias García, Lucía Candela; Alves Da Silva Caldeira, Cleopatra; et al.; Synthetic peptide to produce antivenoms against arachnids Cys-rich toxins; Pergamon-Elsevier Science Ltd; Toxicon: X; 6; 6-2020; 1-10
2590-1710
CONICET Digital
CONICET
Autor
Camperi, Silvia Andrea
Acosta, Gerardo
Barredo, Gabriela Romina
Iglesias García, Lucía Candela
Alves Da Silva Caldeira, Cleopatra
Martínez Ceron, María Camila
Giudicessi, Silvana Laura
Cascone, Osvaldo
Albericio Palomera, Fernando
Resumen
Scorpion and spider envenomation is treated with the appropriate antivenoms, prepared as described by Césaire Auguste Phisalix and Albert Calmette in 1894. Such treatment requires the acquisition and manipulation of arachnid venoms, both very complicated procedures. Most of the toxins in the venoms of spiders and scorpions are extremely stable cysteine-rich peptide neurotoxins. Many strategies have been developed to obtain synthetic immunogens to facilitate the production of antivenoms against these toxins. For example, whole peptide toxins can be synthesized by solid-phase peptide synthesis (SPPS). Also, epitopes of the toxins can be identified and after the chemical synthesis of these peptide epitopes by SPPS, they can be coupled to protein carriers to develop efficient immunogens. Moreover, multiple antigenic peptides with a polylysine core can be designed and synthesized. This review focuses on the strategies developed to obtain synthetic immunogens for the production of antivenoms against the toxic Cys-rich peptides of scorpions and spiders.