Crotoxin-Loaded Silica Nanoparticles: A Nanovenom Approach
Florencia Silvina Conti, Exequiel Giorgi, Laura Montaldo, Juan Pablo Rodríguez, Mauricio Cesar De Marzi, Federico Gastón Baudou

TL;DR
Researchers developed silica nanoparticle-based nanovenoms containing crotoxin, which could enhance antivenom production by boosting immune responses.
Contribution
The novel contribution is the creation and evaluation of crotoxin-loaded silica nanoparticles as potential adjuvants for antivenom development.
Findings
Crotoxin adsorbed onto silica nanoparticles retained its biological activity.
Nanovenoms induced a strong pro-inflammatory response and showed potential to enhance immunogenicity.
Nanovenoms demonstrated significant differences in TGF-β levels after LPS activation but not in IL-10.
Abstract
Background: Ophidism is a globally neglected health problem. In Argentina, Crotalus durissus terrificus (C.d.t., South American rattlesnake) is one of the species of greatest medical importance since its venom contains mainly crotoxin (CTX), a potent enzyme–toxin with PLA2 activity, which is responsible for its high lethality. Objective: In this work, we aimed to generate nanovenoms (NVs), complexes formed by CTX adsorbed onto 150 nm silica nanoparticles (SiNPs), and to study their physicochemical, biological, and immunomodulatory activities for potential use as adjuvants (ADJs) in antivenom (AV) production. Methods: CTX was isolated and corroborated by SDS-PAGE. Then, CTX was adsorbed on the synthetized Stöber SiNPs’ surfaces, forming a monolayer and retaining its biological activity (as observed by the MTT cell proliferation assay using the THP-1 cell line). Results: Immunomodulatory…
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Taxonomy
TopicsVenomous Animal Envenomation and Studies · Nicotinic Acetylcholine Receptors Study · Ion channel regulation and function
