Highlights d In NREMS, thalamic noradrenaline (NA) levels are higher than in quiet wakefulness d Thalamic NA fluctuates over 50 s and is anticorrelated to sleep spindles d NA released from LC depolarizes thalamic neurons through a1and b-adrenoceptors d Infraslow LC activity coordinates heart-rate variations with spindles
Highlights d dPreS/RS cortices send a monosynaptic glutamatergic projection to anterodorsal TRN cells d This projection leads to feedforward inhibition of anterior thalamic cells d Chemogenetic TRN silencing deteriorates thalamic headdirection cell tuning d Chemogenetic TRN silencing alters search strategies in the Morris water maze
Nonsense-mediated messenger RNA (mRNA) decay (NMD) has been intensively studied as a surveillance pathway that degrades erroneous transcripts arising from mutations or RNA processing errors. While additional roles in physiological control of mRNA stability have emerged, possible functions in mammalian physiology in vivo remain unclear. Here, we created a conditional mouse allele that allows converting the NMD effector nuclease SMG6 from wild-type to nuclease domain-mutant protein. We find that NMD down-regulation affects the function of the circadian clock, a system known to require rapid mRNA turnover. Specifically, we uncover strong lengthening of free-running circadian periods for liver and fibroblast clocks and direct NMD regulation of
Cry2
mRNA, encoding a key transcriptional repressor within the rhythm-generating feedback loop. Transcriptome-wide changes in daily mRNA accumulation patterns in the entrained liver, as well as an altered response to food entrainment, expand the known scope of NMD regulation in mammalian gene expression and physiology.
There is high interest in investigating the daily dynamics of gene expression in mammalian organs, for example in liver. Such studies help to elucidate how and with what kinetics peripheral clocks integrate circadian signals from the suprachiasmatic nucleus, which harbors the circadian master pacemaker, with other systemic and environmental cues, such as those associated with feeding and hormones. Organ sampling around the clock, followed by the analysis of RNA and/or proteins, is the most commonly used procedure in assessing rhythmic gene expression.However, this method requires large cohorts of animals and is only applicable to behaviorally rhythmic animals whose phases are known. Real-time recording of gene expression rhythms using luciferase reporters has emerged as a powerful method to acquire continuous, highresolution datasets from freely moving individual mice. Here, we share our experience and protocols with this technique, using the RT-Biolumicorder setup.
In the mouse, Period-2 (Per2) expression in tissues peripheral to the suprachiasmatic nuclei (SCN) increases during sleep deprivation and at times of the day when animals are predominantly awake spontaneously, suggesting that the circadian sleep-wake distribution directly contributes to the daily rhythms in Per2. We found support for this hypothesis by recording sleep-wake state alongside PER2 bioluminescence in freely behaving mice, demonstrating that PER2 bioluminescence increases during spontaneous waking and decreases during sleep. The temporary reinstatement of PER2-bioluminescence rhythmicity in behaviorally arrhythmic SCN-lesioned mice submitted to daily recurring sleep deprivations substantiates our hypothesis. Mathematical modelling revealed that PER2 dynamics can be described by a damped harmonic oscillator driven by two forces: a sleep-wake-dependent force and a SCN-independent circadian force. Our work underscores the notion that in peripheral tissues the clock gene circuitry integrates sleep-wake information and could thereby contribute to behavioral adaptability to respond to homeostatic requirements.
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