Artículo
Redox imbalance is associated to lung damage triggered by silver nanoparticles exposure
Garces, Mariana Soledad
; Magnani, Natalia Daniela
; Pecorelli, Alessandra; Calabró López, María Valeria
; Marchini, Timoteo Oscar
; Caceres, Lourdes Catalina; Pambianchi, Erika; Galdopórpora, Juan Manuel
; Vico, Tamara Antonela
; Salgueiro, María Jimena; Zubillaga, Marcela Beatriz
; Moretton, Marcela Analía
; Desimone, Martín Federico
; Alvarez, Silvia
; Valacchi, Giuseppe; Evelson, Pablo Andrés
Fecha de publicación:
04/2021
Editorial:
Elsevier Science Inc.
Revista:
Free Radical Biology and Medicine
ISSN:
0891-5849
Idioma:
Inglés
Tipo de recurso:
Artículo publicado
Clasificación temática:
Resumen
Along with the AgNP applications development, the concern about their possible toxicity has increasingly gained attention. As the respiratory system is one of the main exposure routes, the aim of this study was to evaluate the harmful effects developed in the lung after an acute AgNP exposure. In vivo studies using Balb/c mice intranasally instilled with 0.1 mg AgNP/kg b.w, were performed. 99mTc-AgNP showed the lung as the main organ of deposition, where, in turn, AgNP may exert barrier injury observed by increased protein content and total cell count in BAL samples. In vivo acute exposure showed altered lung tissue O2 consumption due to increased mitochondrial active respiration and NOX activity. Both O2 consumption processes release ROS triggering the antioxidant system as observed by the increased SOD, catalase and GPx activities and a decreased GSH/GSSG ratio. In addition, increased protein oxidation was observed after AgNP exposure. In A549 cells, exposure to 2.5 μg/mL AgNP during 1 h resulted in augment NOX activity, decreased mitochondrial ATP associated respiration and higher H2O2 production rate. Lung 3D tissue model showed AgNP-initiated barrier alterations as TEER values decreased and morphological alterations. Taken together, these results show that AgNP exposure alters O2 metabolism leading to alterations in oxygen metabolism lung toxicity. AgNP-triggered oxidative damage may be responsible for the impaired lung function observed due to alveolar epithelial injury.
Archivos asociados
Licencia
Identificadores
Colecciones
Articulos(IBIMOL)
Articulos de INSTITUTO DE BIOQUIMICA Y MEDICINA MOLECULAR
Articulos de INSTITUTO DE BIOQUIMICA Y MEDICINA MOLECULAR
Articulos(IQUIMEFA)
Articulos de INST.QUIMICA Y METABOLISMO DEL FARMACO (I)
Articulos de INST.QUIMICA Y METABOLISMO DEL FARMACO (I)
Citación
Garces, Mariana Soledad; Magnani, Natalia Daniela; Pecorelli, Alessandra; Calabró López, María Valeria; Marchini, Timoteo Oscar; et al.; Redox imbalance is associated to lung damage triggered by silver nanoparticles exposure; Elsevier Science Inc.; Free Radical Biology and Medicine; 166; 4-2021; 324-336
Compartir
Altmétricas