Chronobiology international
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This study aimed to analyze individual cortisol levels in relation to work conditions, sleep, and health parameters among truck drivers working day shifts (n = 21) compared to those working irregular shifts (n = 21). A total of 42 male truck drivers (39.8 (+/-) 6.2 yrs) completed questionnaires about sociodemographics, job content, work environment, health, and lifestyle. Rest-activity profiles were measured using actigraphy, and cardiovascular blood parameters were collected. ⋯ Although no direct comparisons could be made between groups for work days, on off days the irregular-shift workers had higher cortisol levels compared to day-shift workers, suggesting a prolonged stress response in the irregular-shift group. In addition, cortisol levels were correlated with stressors and metabolic parameters. Future studies are warranted to investigate further stress responses in the context of irregular work hours.
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Many behavioral and physiological processes display diurnal (24-h) rhythms controlled by an internal timekeeping system?the circadian clock. In mammals, a circadian pacemaker is located in the suprachiasmatic nucleus (SCN) of the hypothalamus and synchronizes peripheral oscillators found in most other tissues with the external light-dark (LD) cycle. At the molecular level, circadian clocks are regulated by transcriptional translational feedback loops (TTLs) involving a set of clock genes. ⋯ The data suggest a synergistic interaction of Per2 and Dec1/2 in activity entrainment to a standard LD cycle, correlating with a cumulative deficiency in negative-masking capacities in Per2/Dec double- and triple-mutant mice and suggesting an involvement of Per2-Dec1/2 interactivity in activity-onset regulation and masking under LD, but not under constant conditions. In contrast, under constant darkness (DD) conditions, a deletion of either Dec1 or Dec2 partially rescued the Per2 mutant short-period/arrhythmicity phenotype, accompanied by a restoration of time-of-day effects on clock gene expression in the SCN. Together, these results show an interaction of Per2 and Dec1/2 feedback processes in the SCN with differential modes of interactivity under entrained and free-run conditions. (Author correspondence: henrik.oster@mpibpc.mpg.de ).