bims-ciryme Biomed News
on Circadian rhythms and metabolism
Issue of 2024‒03‒31
two papers selected by
Gabriela Da Silva Xavier, University of Birmingham



  1. J Neurosci. 2024 Mar 26. pii: e1886232024. [Epub ahead of print]
      BMAL2 (ARNTL2) is a paralog of BMAL1 that can form heterodimers with the other circadian factors CLOCK and NPAS2 to activate transcription of clock and clock-controlled genes. To assess a possible role of Bmal2 in the circadian regulation of metabolism, we investigated daily variations of energy metabolism, feeding behavior, and locomotor behavior, as well as ability to anticipate restricted food access in male mice knock-out for Bmal2 (B2KO). While their amount of food intake and locomotor activity were normal compared to wild-type mice, B2KO mice displayed increased adiposity (1.5-fold higher) and fasted hyperinsulinemia (4-fold higher) and tended to have lower energy expenditure at night. Impairment of the master clock in the suprachiasmatic nuclei was evidenced by the shorter free-running period (-14 min/cycle) of B2KO mice compared to wild-type controls, and by a loss of daily rhythmicity in expression of intracellular metabolic regulators (e.g., Lipoprotein lipase and Uncoupling protein 2). The circadian window of eating was longer in B2KO mice. The circadian patterns of food intake and meal numbers were bimodal in control mice, but not in B2KO mice. In response to restricted feeding, food-anticipatory activity was almost prevented in B2KO mice, suggesting altered food clock that controls anticipation of food availability. In the mediobasal hypothalamus of B2KO mice, expression of genes coding orexigenic neuropetides (including Neuropeptide y and Agouti-Related Peptide) was down-regulated, while Lipoprotein lipase expression lost its rhythmicity. Together, these data highlight that BMAL2 has major impacts on brain regulation of metabolic rhythms, sleep-wake cycle and food anticipation.Significance statement Circadian misalignment is now recognized as a condition triggering metabolic disorders. Using a combination of behavioral, physiological and molecular approaches in the hypothalamus, we report here that ablation of Bmal2 impairs function of hypothalamic clocks, modifies temporal distribution of food intake and energy expenditure, and leads to increased adiposity. These findings highlighting that close interactions between circadian rhythmicity and metabolic pathways are dysfunctional in the absence of Bmal2, and reveal that the transcription factor BMAL2 plays a role in the brain regulation of circadian clocks and energy metabolism. Accordingly, this work provides new evidence that altered circadian rhythmicity can be involved in the etiology of metabolic diseases.
    DOI:  https://doi.org/10.1523/JNEUROSCI.1886-23.2024
  2. Sci Rep. 2024 03 27. 14(1): 7329
      24-h shift (24 hS) exposed emergency physicians to a higher stress level than 14-h night shift (14 hS), with an impact spreading on several days. Catecholamines are supposed to be chronic stress biomarker. However, no study has used catecholamines to assess short-term residual stress or measured them over multiple shifts. A shift-randomized trial was conducted to study urinary catecholamines levels of 17 emergency physicians during a control day (clerical work on return from leave) and two working day (14 hS and 24 hS). The Wilcoxon matched-pairs test was utilized to compare the mean catecholamine levels. Additionally, a multivariable generalized estimating equations model was employed to further analyze the independent relationships between key factors such as shifts (compared to control day), perceived stress, and age with catecholamine levels. Dopamine levels were lower during 24 hS than 14 hS and the control day. Norepinephrine levels increased two-fold during both night shifts. Epinephrine levels were higher during the day period of both shifts than on the control day. Despite having a rest day, the dopamine levels did not return to their normal values by the end of the third day after the 24 hS. The generalized estimating equations model confirmed relationships of catecholamines with workload and fatigue. To conclude, urinary catecholamine biomarkers are a convenient and non-invasive strong measure of stress during night shifts, both acutely and over time. Dopamine levels are the strongest biomarker with a prolonged alteration of its circadian rhythm. Due to the relation between increased catecholamine levels and both adverse psychological effects and cardiovascular disease, we suggest that emergency physicians restrict their exposure to 24 hS to mitigate these risks.
    Keywords:  Dopamine; Epinephrine; Health-care workers; Shift work; Sleep; Stress
    DOI:  https://doi.org/10.1038/s41598-024-58070-2