Rebalancing NOX2/Nrf2 to limit inflammation and oxidative stress across gut-brain axis in migraine

“…The microbiota-gut-brain axis is a bidirectional route of homeostatic communication via epigenetic mechanisms of diverse metabolites such as SCFAs. Thus, a modulation of the gut microbiota via diet or lifestyle can regulate neuron/brain inflammation via certain epigenetic mechanisms [53], which might be effective for enhancing emotional well-being and/or treating depressive disorders [54]. As important constituents of epigenetics by gut microbial metabolites and/or fermentation products, several miRNAs with epigenetic mechanisms have vital roles in various physiological homeostasis mechanisms [55,56].…”

Potential Molecular Mechanisms of Alcohol Use Disorder with Non-Coding RNAs and Gut Microbiota for the Development of Superior Therapeutic Application

“…The microbiota-gut-brain axis is a bidirectional route of homeostatic communication via epigenetic mechanisms of diverse metabolites such as SCFAs. Thus, a modulation of the gut microbiota via diet or lifestyle can regulate neuron/brain inflammation via certain epigenetic mechanisms [53], which might be effective for enhancing emotional well-being and/or treating depressive disorders [54]. As important constituents of epigenetics by gut microbial metabolites and/or fermentation products, several miRNAs with epigenetic mechanisms have vital roles in various physiological homeostasis mechanisms [55,56].…”

Potential Molecular Mechanisms of Alcohol Use Disorder with Non-Coding RNAs and Gut Microbiota for the Development of Superior Therapeutic Application

High glucose levels accelerate atherosclerosis via NLRP3-IL/ MAPK/NF-κB-related inflammation pathways

Ginsenoside Rg1 alleviates chronic inflammation-induced neuronal ferroptosis and cognitive impairments via regulation of AIM2 - Nrf2 signaling pathway