Abstract
ObjectiveWe applied systems biology approaches to investigate circadian rhythmicity in rheumatoid arthritis (RA).MethodsWe recruited adults (age 16–80 years old) with a clinical diagnosis of RA (active disease [DAS28 > 3.2]). Sleep profiles were determined before inpatient measurements of saliva, serum, and peripheral blood mononuclear leukocytes (PBML). Transcriptome and proteome analyses were carried out by RNA-SEQ and LC-MS/MS. Serum samples were analysed by targeted lipidomics, along with serum from mouse collagen induced-arthritis (CIA). Bioinformatic analysis identified RA-specific gene networks and rhythmic processes differing between healthy and RA.ResultsRA caused greater time-of-day variation in PBML gene expression, and ex vivo stimulation identified a time-of-day-specific RA transcriptome. We found increased phospho-STAT3 in RA patients, and some targets, including phospho-ATF2, acquired time-of-day variation in RA. Serum ceramides also gained circadian rhythmicity in RA, which was also seen in mouse experimental arthritis, resulting from gain in circadian rhythmicity of hepatic ceramide synthases.ConclusionRA drives a gain in circadian rhythmicity, both in immune cells, and systemically. The coupling of distant timing information to ceramide synthesis and joint inflammation points to a systemic re-wiring of the circadian repertoire. Circadian reprogramming in response to chronic inflammation has implications for inflammatory co-morbidities and time-of-day therapeutics.
Highlights
Rheumatoid arthritis (RA) is a chronic inflammatory disease affecting approximately 1% of adults [1]
Serum ceramides gained circadian rhythmicity in RA, which was seen in mouse experimental arthritis, resulting from gain in circadian rhythmicity of hepatic ceramide synthases
RA drives a gain in circadian rhythmicity, both in immune cells, and systemically
Summary
Rheumatoid arthritis (RA) is a chronic inflammatory disease affecting approximately 1% of adults [1]. RA is associated with significant comorbidities most notably premature cardiovascular disease and insulin resistance [2, 3] and is classically rhythmic, with hallmark symptoms such as pain and stiffness typically being worse in the early morning. This has been attributed, at least in part, to underlying circadian patterns in cytokine production, including IL-6 and IL-1β [4, 5]. The period of the clock is affected by post-translational modifications of the feedback proteins, notably by phosphorylation [8]
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