Glucocorticoid (GC) signaling synchronizes the circadian rhythm of individual peripheral cells and induces the expression of circadian genes, including Period1 (Per1) and Period2 (Per2). However, no GC response element (GRE) has been reported in the Per2 promoter region. Here we report the molecular mechanisms of Per2 induction by GC signaling and its relevance to the regulation of circadian timing. We found that GC prominently induced Per2 expression and delayed the circadian phase. The overlapping GRE and E-box (GE2) region in the proximal Per2 promoter was responsible for GC-mediated Per2 induction. The GRE in the Per2 promoter was unique in that brain and muscle ARNT-like protein-1 (BMAL1) was essential for GC-induced Per2 expression, whereas other GRE-containing promoters, such as Per1 and mouse mammary tumor virus, responded to dexamethasone in the absence of BMAL1. This specialized regulatory mechanism was mediated by BMAL1-dependent binding of the GC receptor to GRE in Per2 promoter. When Per2 induction was abrogated by the mutation of the GRE or E-box, the circadian oscillation phase failed to be delayed compared with that of the wild-type. Therefore, the current study demonstrates that the rapid Per2 induction mediated by GC is crucial for delaying the circadian rhythm.
A rapid induction of mouse period1 (mPer1) gene expression is supposed to be critical in the clock gene regulation, especially in the phase resetting of the clock, but its molecular mechanism is poorly understood. Based on the previous finding that the process does not involve de novo synthesis of proteins, we postulated the involvement of CLOCK:BMAL1 heterodimer, a positive regulator of circadian oscillator, in the rapid induction of mPer1 transcription. To test this hypothesis, we utilized CLOCKdelta19, a dominant-negative mutant, to suppress the function of CLOCK:BMAL1 in vitro. Serum-evoked rapid increases of mPer1 mRNA expression and promoter activity were significantly blunted when CLOCK:BMAL1 function was interfered with. Furthermore, DNA binding activity of CLOCK:BMAL1 heterodimer to five E-boxes of mPer1 promoter markedly increased shortly after serum shock. Taken together, these results suggest that CLOCK:BMAL1 heterodimer is not only a core component of negative feedback loop driving circadian oscillator, but also involved in the rapid induction of mPer1during phase resetting of the clock.
Circadian clocks are the endogenous oscillators that harmonize a variety of physiological processes within the body. Although many urinary functions exhibit clear daily or circadian variation in diurnal humans and nocturnal rodents, the precise mechanisms of these variations are as yet unclear. In the present study, we demonstrate that Per2 promoter activity clearly oscillates in neonate and adult bladders cultured ex vivo from Per2::Luc knock-in mice. In subsequent experiments, we show that multiple local oscillators are operating in all the bladder tissues (detrusor, sphincter and urothelim) and the lumbar spinal cord (L4–5) but not in the pontine micturition center or the ventrolateral periaqueductal gray of the brain. Accordingly, the water intake and urine volume exhibited daily and circadian variations in young adult wild-type mice but not in Per1−/−Per2−/− mice, suggesting a functional clock-dependent nature of the micturition rhythm. Particularly in PDK mice, the water intake and urinary excretion displayed an arrhythmic pattern under constant darkness, and the amount of water consumed and excreted significantly increased compared with those of WT mice. These results suggest that local circadian clocks reside in three types of bladder tissue and the lumbar spinal cord and may have important roles in the circadian control of micturition function.
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