%0 Journal Article
%T Chronobiotics, satiety signaling, and clock gene expression interplay.
%A Dafne VJ
%A Manuel MA
%A Rocio CV
%J J Nutr Biochem
%V 126
%N 0
%D 2024 Apr 3
%M 38176625
%F 6.117
%R 10.1016/j.jnutbio.2023.109564
%X The biological clock regulates the way our body works throughout the day, including releasing hormones and food intake. Disruption of the biological clock (chronodisruption) may deregulate satiety, which is strictly regulated by hormones and neurotransmitters, leading to health problems like obesity. Nowadays, using bioactive compounds as a coadjutant for several pathologies is a common practice. Phenolic compounds and short-chain fatty acids, called "chronobiotics," can modulate diverse mechanisms along the body to exert beneficial effects, including satiety regulation and circadian clock resynchronization; however, the evidence of the interplay between those processes is limited. This review compiles the evidence of natural chronobiotics, mainly polyphenols and short-chain fatty acids that affect the circadian clock mechanism and process modifications in genes or proteins resulting in a signaling chain that modulates satiety hormones or hunger pathways.