Vegetable infusions (VI) are one of the main phenolic sources for humans. They may act as antioxidants in the central nervous system, but data about their effect are insufficient. The main objective of the study was to determinate the effects of oral VI of Argentinean plants on phenolic concentration and redox homeostasis in different murine encephalic regions. Redox changes (peroxides -HP-, anion superoxide -SO- and γ-glutamyltranspeptidase activity) and tissue phenolics were assessed in Balb/c mice of both sexes treated with the following VI extracts: Lantana grisebachii Seckt. var. grisebachii (Verbenaceae) (LG), Aspidosperma quebracho-blanco Schltdl. (Apocynaceae) (AQB), and Ilex paraguariensis A. St.-Hil. (Aquifoliaceae) (IP). Brain (telencephalon and diencephalon), midbrain, brainstem, and cerebellum were studied (analysis of variance, P < 0.05). A redox homeostasis depending on an appropriate phenolic balance was detected after marker analysis. Under situations without exogenous challenges, the excessive or deficient levels were deleterious on each region. This finding was confirmed independently of the utilized phytoextracts. LG and AQB caused such phenolic imbalance and triggered oxidative stress. IP group showed region-specific differential redox effects. Overall, the last extract exhibited the best redox profile when the complete encephalon was analyzed. Since this plant has sanitary impact due to its high human intake, new studies about it are warranted.
Background: Plant extracts can be obtained to carry bioactive compounds, useful for prevention and treatment of different illnesses. This also supports the intake of teas as functional beverages. Nonetheless, it is incompletely known whether these extracts can act as effective sources and vehicles de phenolic compounds (phenolics/polyphenols) to reach their targets. Objective: To establish whether phytoextract ingestion modified in a sex-dependent manner the phenolic bioavailability and redox response in liver and kidney. Method: BALB/C mice ingested for a month 100 mg/Kg/d of extracts (tea-like) from Aspidosperma quebracho-blanco (AQB), Lantana grisebachii (LG) or Ilex paraguariensis (IP). Then, phenolics, peroxides and nitrites were analyzed by spectrophotometry. Also, phenolic permeation from digested and undigested extracts was evaluated in vitro with a rat jejunum-based assay. Results: Phenolic permeation depended on extract digestion. In males, IP showed a special time course of hepatic phenolics, whereas all extracts decreased renal phenolics at 15 days. Extracts induced hepatic lipoperoxides at 15 days. LG reduced renal hydroperoxides at 15 days and hepatic nitrites at 30 days, whereas AQB and IP reduced renal lipoperoxides and nitrites at 30 days. In females, extracts reduced hydroperoxides, with LG and AQB also reducing lipoperoxides. IP increased renal lipoperoxides at 30 days. Conclusion: IP was a relevant phenolic source. Sex-dependent responses were found in all variables, which should be considered to prevent misleading generalizations in phytodrug bioprospecting.
Introducción. El arsénico es un tóxico ambiental ampliamente diseminado en todo el mundo. En hombres y animales, diversos órganos y tejidos son blancos de sus efectos deletéreos, entre ellos, el los del sistema inmunológico.Objetivo. Determinar la intoxicación aguda por arsénico en tejidos y células diana de ratones Balb/c in vivo.Materiales y métodos. Se aplicó una inyección intraperitoneal de 9,5 o 19 mg/kg de arsenito de sodio (NaAsO2) o un volumen equivalente de solución fisiológica como control, en ratones Balb/c con 3 por cada grupo experimental. Tras media hora, los animales fueron sacrificados y se extrajeron bazos, timos, hígados, riñones y sangre. En cada muestra, se determinó la concentración de arsénico, polifenoles y hierro, y también, se evaluaron marcadores oxidativos, como peróxidos, productos avanzados de oxidación proteica y grupos sulfhidrilos libres. En los esplenocitos obtenidos del bazo, se determinaron la viabilidad celular y el potencial mitocondrial.Resultados. La dosis aguda inyectada de NaAsO2 redujo la función mitocondrial de los esplenocitos, lo que derivó en muerte celular. La presencia confirmada de arsénico en las muestras de bazo y la citotoxicidad resultante, produjeron disminución de los polifenoles y de los grupos sulfhidrilos libres, y alteraron el contenido y la distribución del hierro, pero no se aumentó la producción de peróxidos.Conclusión. Estos hallazgos aportan evidencia científica sobre los cambios en biomarcadores involucrados en la inmunotoxicidad del arsénico y ofrecen, además, una metodología para ensayar potenciales tratamientos frente a la acción deletérea de este compuesto en el sistema inmunológico.
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