Litcius/Paper detail

Environmental circadian disruption re-writes liver circadian proteomes

Hao A. Duong, Kenkichi Baba, Jason P. DeBruyne, Alec J. Davidson, Christopher Ehlen, Michael D. Powell, Gianluca Tosini

2024Nature Communications17 citationsDOIOpen Access PDF

Abstract

Circadian gene expression is fundamental to the establishment and functions of the circadian clock, a cell-autonomous and evolutionary-conserved timing system. Yet, how it is affected by environmental-circadian disruption (ECD) such as shiftwork and jetlag are ill-defined. Here, we provided a comprehensive and comparative description of male liver circadian gene expression, encompassing transcriptomes, whole-cell proteomes and nuclear proteomes, under normal and after ECD conditions. Under both conditions, post-translation, rather than transcription, is the dominant contributor to circadian functional outputs. After ECD, post-transcriptional and post-translational processes are the major contributors to whole-cell or nuclear circadian proteome, respectively. Furthermore, ECD re-writes the rhythmicity of 64% transcriptome, 98% whole-cell proteome and 95% nuclear proteome. The re-writing, which is associated with changes of circadian regulatory cis-elements, RNA-processing and protein localization, diminishes circadian regulation of fat and carbohydrate metabolism and persists after one week of ECD-recovery.

Topics & Concepts

Circadian rhythmProteomeTranscriptomeCircadian clockBiologyCell biologyGene expressionGeneBioinformaticsGeneticsEndocrinologyCircadian rhythm and melatoninGenetics, Aging, and Longevity in Model OrganismsSpaceflight effects on biology