Litcius/Paper detail

Aorta- and liver-generated TMAO enhances trained immunity for increased inflammation via ER stress/mitochondrial ROS/glycolysis pathways

Fatma Saaoud, Lu Liu, Keman Xu, Ramón Cueto, Ying Shao, Yifan Lu, Yu Sun, Nathaniel W. Snyder, Sheng Wu, Ling Yang, Yan Zhou, David L. Williams, Chuanfu Li, Laisel Martinez, Roberto I. Vázquez-Padrón, Huaqing Zhao, Xiaohua Jiang, Hong Wang, Xiaofeng Yang

2022JCI Insight134 citationsDOIOpen Access PDF

Abstract

We determined whether gut microbiota-produced trimethylamine (TMA) is oxidized into trimethylamine N-oxide (TMAO) in nonliver tissues and whether TMAO promotes inflammation via trained immunity (TI). We found that endoplasmic reticulum (ER) stress genes were coupregulated with MitoCarta genes in chronic kidney diseases (CKD); TMAO upregulated 190 genes in human aortic endothelial cells (HAECs); TMAO synthesis enzyme flavin-containing monooxygenase 3 (FMO3) was expressed in human and mouse aortas; TMAO transdifferentiated HAECs into innate immune cells; TMAO phosphorylated 12 kinases in cytosol via its receptor PERK and CREB, and integrated with PERK pathways; and PERK inhibitors suppressed TMAO-induced ICAM-1. TMAO upregulated 3 mitochondrial genes, downregulated inflammation inhibitor DARS2, and induced mitoROS, and mitoTEMPO inhibited TMAO-induced ICAM-1. β-Glucan priming, followed by TMAO restimulation, upregulated TNF-α by inducing metabolic reprogramming, and glycolysis inhibitor suppressed TMAO-induced ICAM-1. Our results have provided potentially novel insights regarding TMAO roles in inducing EC activation and innate immune transdifferentiation and inducing metabolic reprogramming and TI for enhanced vascular inflammation, and they have provided new therapeutic targets for treating cardiovascular diseases (CVD), CKD-promoted CVD, inflammation, transplantation, aging, and cancer.

Topics & Concepts

InflammationTrimethylamine N-oxideChemistryDownregulation and upregulationCell biologyUnfolded protein responseInnate immune systemCancer researchBiochemistryBiologyEndoplasmic reticulumImmunologyReceptorTrimethylamineGeneImmune responses and vaccinationsImmune cells in cancerNeonatal Respiratory Health Research