APA
Zhenyukh, Olha & Civantos, Esther & Ruiz Ortega, Marta & Sánchez, Maria Soledad & Vázquez, Clotilde & Peiró, Concepción & Egido, Jesús & Mas, Sebastian (2017 ) .High concentration of branched-chain amino acids promotes oxidative stress, inflammation and migration of human peripheral blood mononuclear cells via mTORC1 activation.
ISO 690
Zhenyukh, Olha & Civantos, Esther & Ruiz Ortega, Marta & Sánchez, Maria Soledad & Vázquez, Clotilde & Peiró, Concepción & Egido, Jesús & Mas, Sebastian. 2017 .High concentration of branched-chain amino acids promotes oxidative stress, inflammation and migration of human peripheral blood mononuclear cells via mTORC1 activation.
https://hdl.handle.net/20.500.12080/39736
Resumen:
Leucine, isoleucine and valine are essential aminoacids termed branched-chain amino acids (BCAA) due to its
aliphatic side-chain. In several pathological and physiological conditions increased BCAA plasma concentrations
have been described. Elevated BCAA levels predict insulin resistance development. Moreover, BCAA levels
higher than 2 mmol/L are neurotoxic by inducing microglial activation in maple syrup urine disease. However,
there are no studies about the direct effects of BCAA in circulating cells. We have explored whether BCAA could
promote oxidative stress and pro-inflammatory status in peripheral blood mononuclear cells (PBMCs) obtained
from healthy donors. In cultured PBMCs, 10 mmol/L BCAA increased the production of reactive oxygen species
(ROS) via both NADPH oxidase and the mitochondria, and activated Akt-mTOR signalling. By using several
inhibitors and activators of these molecular pathways we have described that mTOR activation by BCAA is
linked to ROS production and mitochondrial dysfunction. BCAA stimulated the activation of the redox-sensitive
transcription factor NF-¿B, which resulted in the release of pro-inflammatory molecules, such as interleukin-6,
tumor necrosis factor-¿, intracellular adhesion molecule-1 or CD40L, and the migration of PBMCs. In conclusion,
elevated BCAA blood levels can promote the activation of circulating PBMCs, by a mechanism that involving
ROS production and NF-¿B pathway activation. These data suggest that high concentrations of BCAA could exert
deleterious effects on circulating blood cells and therefore contribute to the pro-inflammatory and oxidative
status observed in several pathophysiological conditions