Abstract
Alcohol use disorder accounts for a growing worldwide health system concern. Alcohol causes damages to various organs, including intestine and liver, primarily involved in its absorption and metabolism. However, alcohol-related organ damage risk varies significantly among individuals, even when they report consuming comparable dosages of alcohol. Factor(s) that may modulate the risk of organ injuries from alcohol consumption could be responsible for inter-individual variations in susceptibility to alcohol-related organ damages. Accumulating evidence suggests disruptions in circadian rhythm can exacerbate alcohol-related organ damages. Here we investigated the interplay between alcohol, circadian rhythm, and key tissue cellular processes at baseline, after a regular and a shift in the light/dark cycle (LCD) in mice. Central/peripheral clock expression of core clock genes (CoClGs) was analyzed. We also studied circadian homeostasis of tissue cellular processes that are involved in damages from alcohol. These experiments reveal that alcohol affects the expression of CoClGs causing a central-peripheral dyssynchrony, amplified by shift in LCD. The observed circadian clock dyssynchrony was linked to circadian disorganization of key processes involved in the alcohol-related damages, particularly when alcohol was combined with LCD. These results offer insights into the mechanisms by which alcohol interacts with circadian rhythm disruption to promote organ injury.
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