Our increasing obesogenic and aging society has resulted in a steeply increasing prevalence of cardiometabolic diseases. The main underlying reason is our modern lifestyle with respect to higher... Show moreOur increasing obesogenic and aging society has resulted in a steeply increasing prevalence of cardiometabolic diseases. The main underlying reason is our modern lifestyle with respect to higher availability and intake of food, which often appears unhealthy, and lower energy expenditure related to a sedentary lifestyle. Although the most efficient ways to slow this high prevalence of obesity are just eating less and more healthy, and moving more, to reduce energy intake and increase energy expenditure, respectively, current strategies to achieve this in the long-term are still both insufficient and ineffective, and novel strategies are still eagerly warranted.This thesis emphasizes dietary butyrate as a promising and feasible therapeutic strategy to combat obesity and related cardiometabolic diseases with respect to not only reducing appetite but also activating brown adipose tissue. In a series of subsequent mechanistic studies, we elucidated the mechanisms underlying these metabolic properties systematically from gut to the brain, showing the involvement of gut microbiota, intestinal GLP-1 secretion, vagal nerve activation, and finally central GLP-1 receptor signaling to inhibit NPY neuronal activation. The findings of this thesis provide valuable information on the development of novel therapeutic strategies for combating obesity and associated cardiometabolic diseases. Show less
