Incorporation of nitroprusside on silica nanoparticles - a strategy for safer use of this no donor in therapy

Silva Filho, Pedro Martins da; Paz, Iury Araújo; Nascimento, Nilberto Robson Falcão do; Santos, Cláudia Ferreira; Araújo, Valdevane Rocha; Aquino, Camila Peixoto de; Ribeiro, Thiago Soares; Vasconcelos, Igor Frota de; Lopes, Luiz Gonzaga de França; Sousa, Eduardo Henrique Silva; Longhinotti, Elisane

Use este identificador para citar ou linkar para este item: http://repositorio.ufc.br/handle/riufc/67383

Tipo:	Artigo de Periódico
Título:	Incorporation of nitroprusside on silica nanoparticles - a strategy for safer use of this no donor in therapy
Autor(es):	Silva Filho, Pedro Martins da Paz, Iury Araújo Nascimento, Nilberto Robson Falcão do Santos, Cláudia Ferreira Araújo, Valdevane Rocha Aquino, Camila Peixoto de Ribeiro, Thiago Soares Vasconcelos, Igor Frota de Lopes, Luiz Gonzaga de França Sousa, Eduardo Henrique Silva Longhinotti, Elisane
Palavras-chave:	Nitric oxide delivery;Silica nanoparticles;Cyanide trapping;Vasodilation;Cytotoxicity
Data do documento:	2019
Instituição/Editor/Publicador:	Molecular Pharmaceutics
Citação:	SILVA FILHO, Pedro Martins da et al. Incorporation of nitroprusside on silica nanoparticles - a strategy for safer use of this no donor in therapy. Molecular Pharmaceutics, [s. l.], v. 16, p. 2912-2921, 2019.
Abstract:	Silica-based nanoparticles have been developed as powerful platforms for drug delivery and might also prevent undesired side effects of drugs. Here, a fast method to synthesize positively charged mesoporous silica nanoparticles (ζ = 20 ± 0.5 mV, surface area = 678 m2 g−1, and 2.3 nm of porous size) was reported. This nanomaterial was employed to anchor sodium nitroprusside (SNP), a vasodilator drug with undesired cyanide release. A remarkable incorporation of 323.9 ± 7.55 μmol of SNP per gram of nanoparticle was achieved, and a series of studies of NO release were conducted, showing efficient release of NO along with major cyanide retention (ca. 64% bound to nanoparticle). Biological assays with mammalian cells showed only a slight drop in cell viability (13%) at the highest concentration (1000 μM), while SNP exhibited an LC50 of 228 μM. Moreover, pharmacological studies demonstrated similar efficacy for vasodilation and sGC-PKG-VASP pathway activation when compared to SNP alone. Altogether, this new SNP silica nanoparticle has great potential as an alternative for wider and safer use of SNP in medicine with lower cyanide toxicity.
URI:	http://www.repositorio.ufc.br/handle/riufc/67383
ISSN:	1543-8392
Aparece nas coleções:	DEMM - Artigos publicados em revista científica

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