Proteomics-Based Identification of Interaction Partners of the Xenobiotic Detoxification Enzyme FMO3 Reveals Involvement in Urea Cycle

Abstract: The hepatic xenobiotic metabolizing enzyme flavin-containing monooxygenase 3 (FMO3) has been implicated in the development of cardiometabolic disease primarily due to its enzymatic product trimethylamine-N oxide (TMAO), which has recently been shown to be associated with multiple chronic diseases, including kidney and coronary artery diseases. Although TMAO may have causative roles as a pro-inflammatory mediator, the possibility for roles in metabolic disease for FMO3, irrespective of TMAO formation, does exis… Show more

“…Although TMAO is a possible pro-inflammatory mediator, Fmo3 may play a role in metabolic diseases regardless of TMAO formation. Some reports indicate that Fmo3 is significantly involved in liver detoxification, as the loss of Fmo3 increases ammonia in the liver [14]. Furthermore, it is well known that physical activity has a positive effect on gut microbiota, and it is clear that TMAO levels increase after exercise and sports [15].…”

Transcriptomic (DNA Microarray) and Metabolome (LC-TOF-MS) Analyses of the Liver in High-Fat Diet Mice after Intranasal Administration of GALP (Galanin-like Peptide)

“…Although TMAO is a possible pro-inflammatory mediator, Fmo3 may play a role in metabolic diseases regardless of TMAO formation. Some reports indicate that Fmo3 is significantly involved in liver detoxification, as the loss of Fmo3 increases ammonia in the liver [14]. Furthermore, it is well known that physical activity has a positive effect on gut microbiota, and it is clear that TMAO levels increase after exercise and sports [15].…”

Transcriptomic (DNA Microarray) and Metabolome (LC-TOF-MS) Analyses of the Liver in High-Fat Diet Mice after Intranasal Administration of GALP (Galanin-like Peptide)