Título
Toxicological Screening of Four Bioactive Citroflavonoids: In Vitro, In Vivo, and In Silico Approaches
11627/559411627/5594
Autor
Ortiz Andrade, Rolffy Ruben
Araujo León, Jesús Alfredo
Sánchez Recillas, Amanda
Navarrete Vázquez, Juan Gabriel
González Sánchez, Avel Adolfo
Hidalgo Figueroa, Sergio Nemorio
Alonso Castro, Angel Josabab
Aranda González, Irma
Hernández Núñez, Emanuel
Coral Martínez, Tania Isolina
Sánchez Salgado, Juan Carlos
Yáñez Pérez, Victor
Lucio Garcia, Monica Arely
Resumen
"Many studies describe different pharmacological effects of flavonoids on experimental animals and humans. Nevertheless, few ones are confirming the safety of these compounds for therapeutic purposes. This study aimed to investigate the preclinical safety of naringenin, naringin, hesperidin, and quercetin by in vivo, in vitro, and in silico approaches. For this, an MTT-based cytotoxicity assay in VERO and MDCK cell lines was performed. In addition, acute toxicity was evaluated on Wistar rats by OECD Guidelines for the Testing of Chemicals (Test No. 423: Acute Oral Toxicity-Class Method). Furthermore, we used the ACD/Tox Suite to predict toxicological parameters such as hERG channel blockade, CYP450 inhibition, and acute toxicity in animals. The results showed that quercetin was slightly more cytotoxic on cell lines (IC50 of 219.44 ± 7.22 mM and 465.41 ± 7.44 mM, respectively) than the other citroflavonoids. All flavonoids exhibited an LD50 value > 2000 mg/kg, which classifies them as low-risk substances as OECD guidelines established. Similarly, predicted LD50 was LD50 > 300 to 2000 mg/kg for all flavonoids as acute toxicity assay estimated. Data suggests that all these flavonoids did not show significant toxicological effects, and they were classified as low-risk, useful substances for drug development."
Fecha de publicación
2020Tipo de publicación
articleDOI
https://doi.org/10.3390/molecules25245959Área de conocimiento
BIOQUÍMICAColecciones
Editor
MDPIPalabras clave
CitroflavonoidsLow-risk substances
Acute oral toxicity
MTT-based assay
Toxicity prediction