Clock gene signature predicts Insomnia and links to sleep/circadian parameters

Chronic Insomnia is a prevalent sleep disorder that remains difficult to diagnose due to subjective symptoms and heterogeneous presentations. The most severe form, insomnia with short sleep duration (ISSD), is defined by a total sleep time of less than six hours on polysomnography. However, objective assessments are rarely recommended in diagnostic guidelines, highlighting the need for alternative biomarkers. Disruptions in the circadian clock system may contribute to chronic insomnia, though the extent of these effects remains unclear. In this study, we investigate sleep and circadian rhythm-related alterations in chronic insomnia and its subtypes, ISSD and insomnia with normal sleep duration (INSD), by assessing plasma cortisol, wrist and axillary temperature, and clock gene expression in peripheral blood mononuclear cells (PBMCs). Additionally, we use machine learning to identify the most relevant clock genes for detecting insomnia and classifying its subtypes. Chronic insomnia patients exhibited reduced body temperature rhythms, elevated nighttime cortisol levels, and significant alterations in clock genes expression, including in BMAL1 , PER1-2 , REV-ERBα , and REV-ERBβ , compared to controls. Most alterations were more significant in the ISSD. Moreover, associations between clock gene expression, sleep-related parameters and insomnia severity index (ISI) scores were identified. Using machine learning, we identified three genes as sensitive biomarkers distinguishing chronic insomnia from controls and differentiating between ISSD and INSD subtypes. Our findings suggest that circadian markers and machine learning could improve understanding of chronic insomnia and aid biomarker discovery for diagnosis.