Vanessa Barbosa Pinheiro Gonçalves, Gabriel Acácio de Moura, João Pedro Viana Rodrigues, Javier Martinez Latorre, Vicente Candela-Nogueira, Paula M. Soriano-Teruel, Alba García-Fernández, Ramón Martínez Máñez, Marlos de Medeiros Chaves, Claudia do Ó Pessoa, Anderson Maciel de Lima, Andreimar Martins Soares and Roberto Nicolete* Pages 1 - 13 ( 13 )
Background: The use of bioactive molecules isolated from rattlesnake venom and other poisons has been ongoing for years. Among these bioactive compounds present in snake venom, crotoxin (CTX) stands out as a β-heterodimeric neurotoxin isolated from the venom of Crotalus durissus terrificus. Research on this toxin for its applicability to tumor inhibition has advanced to clinical trials in recent years. Consequently, concerns regarding the use of a toxin as a treatment and the search for dose control that does not trigger extreme toxicity have emerged. Thus, it is necessary to investigate alternatives for controlled delivery and targeted toxin administration.
Method: This study aimed to evaluate the in vitro toxic action of CTX and its phospholipase A2 CB (PLA2CB) component, both free and encapsulated in polymeric nanoparticles. The inhibitory concentration value of 50% tumor growth (IC50) for CTX and PLA2CB was determined in an initial screening against six tumor cell lines. After identifying the lowest inhibitory concentration value of 0.8 μM observed in human melanoma (SK-MEL-103), this cell line was chosen.
Results: The cell death mechanism triggered by CTX and PLA2CB exhibited characteristics associated with the necrotic process. However, polymeric nanoparticles containing PLA2CB (NP-PLA2CB) demonstrated apoptosis-like cell death processes in flow cytometry. PLGA polymeric nanoparticles containing PLA2CB were synthesized using microfluidics, resulting in NP-PLA2CB with a diameter of 91 ± 2.9 nm and a zeta potential of -21.8 ± 3.2 mV. The encapsulation efficiency of PLA2CB was approximately 70% (protein content).
Conclusion: It was concluded that using the phospholipase component of the toxin in a polymeric-controlled delivery and targeted system may be an alternative solution to the issues in advancing this bioactive molecule in clinical-oncological studies. However, further studies are still being conducted for targeted treatment involving this nanotechnological approach.
Crotoxin, phospholipase A2 CB, PLGA, polymeric nanoparticles, melanoma.