Daytime light enhances the amplitude of circadian output in a diurnal mammal

Baño-Otálora, Beatriz; Martial, Franck P.; Harding, Court; Allen, Annette E.; Brown, Timothy M.; Belle, Mino D. C.; Lucas, Robert J.

doi:10.1101/2020.06.22.164194

Cited by 3 publications

(2 citation statements)

References 49 publications

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“…This environment delivering low light levels during the day may prevent patients from maintaining stable circadian rhythms ( Durrington et al, 2017 ). In fact, the lack of circadian-effective daytime light has been shown to be associated with decreased circadian rhythm amplitude ( Bano-Otalora et al, 2020 ), poor sleep quality, and delayed sleep onset ( Blume et al, 2019 ). Bernhofer et al also found that low daytime light levels in hospitals predicted sleep fragmentation and mood disturbances among patients ( Bernhofer et al, 2014 ).…”

Section: Hospital Light Interventions For Sleep and Circadian Healthmentioning

confidence: 99%

Postoperative cognitive dysfunction: spotlight on light, circadian rhythms, and sleep

Campbell,

Figueiro

2024

Front. Neurosci.

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Postoperative cognitive dysfunction (POCD) is a neurological disorder characterized by the emergence of cognitive impairment after surgery. A growing body of literature suggests that the onset of POCD is closely tied to circadian rhythm disruption (CRD). Circadian rhythms are patterns of behavioral and physiological change that repeat themselves at approximately, but not exactly, every 24 h. They are entrained to the 24 h day by the daily light–dark cycle. Postoperative CRD affects cognitive function likely by disrupting sleep architecture, which in turn provokes a host of pathological processes including neuroinflammation, blood–brain barrier disturbances, and glymphatic pathway dysfunction. Therefore, to address the pathogenesis of POCD it is first necessary to correct the dysregulated circadian rhythms that often occur in surgical patients. This narrative review summarizes the evidence for CRD as a key contributor to POCD and concludes with a brief discussion of how circadian-effective hospital lighting can be employed to re-entrain stable and robust circadian rhythms in surgical patients.

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Section: Hospital Light Interventions For Sleep and Circadian Healthmentioning

confidence: 99%

Postoperative cognitive dysfunction: spotlight on light, circadian rhythms, and sleep

Campbell,

Figueiro

2024

Front. Neurosci.

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“…Rhabdomys pumilio (the four striped mouse) represents an excellent opportunity to address this question. This species is strongly diurnal (Dewsbury & Dawson, 1979;Schumann et al, 2005;Bano-Otalora et al, 2020) and is a murid rodent, facilitating comparison with established findings from closely related nocturnal species (mice and rats). We adopted a parallel approach of experimental recording and advanced computational modelling to understand the R. pumilio SCN.…”

Section: Introductionmentioning

confidence: 99%

Daily electrical activity in the master circadian clock of a diurnal mammal

Baño-Otálora

Moye

Brown

et al. 2020

Preprint

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Daily or circadian rhythms in mammals are orchestrated by a master circadian clock within the hypothalamic suprachiasmatic nuclei (SCN). Here, cell-autonomous oscillations in gene expression, intrinsic membrane properties, and synaptic communication shape the electrical landscape of the SCN across the circadian day, rendering SCN neurons overtly more active during the day than at night. This well-accepted hallmark bioelectrical feature of the SCN has overwhelmingly emerged from studies performed on a small number of nocturnal rodent species. Therefore, for the first time, we investigate the spontaneous and evoked electrical activity of SCN neurons in a diurnal mammal. To this end, we measured the electrical activity of individual SCN neurons during the day and at night in brain slices prepared from the diurnal murid rodent Rhabdomys pumilio and then developed cutting-edge data assimilation and mathematical modelling approaches to uncover the underlying ionic mechanisms. We find that R. pumilio SCN neurons were more excited in the day than at night, recapitulating the prototypical pattern of SCN neuronal activity previously observed in nocturnal rodents. By contrast, the evoked activity of R. pumilio neurons included a prominent suppressive response that is not present in the SCN of nocturnal rodents. Our computational modelling approaches reveal transient subthreshold A-type potassium channels as the primary determinant of the suppressive response and highlight a key role for this ionic mechanism in tuning excitability of clock neurons and optimising SCN function to accommodate R. pumilio’s diurnal niche.

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Functional interactions between neurotransmitters and neuropeptides in regulating suprachiasmatic nucleus function and circadian rhythms

Reghunandanan

2024

Explor Neurosci

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The overt expression of circadian rhythms is a manifestation of the suprachiasmatic nucleus (SCN). This integrated complex function based on the transcriptional/translational feedback loops (TFFLs), neurotransmitters, genes, networking, and synchronization is essential for this molecular mechanism to operate effectively. Neurotransmitters by participating in the entrainment to the environmental light conditions and synchronization contribute to the robustness of the rhythm. Neurotransmitter signaling is the hallmark of circadian rhythm expression. Even during development, neuropeptides contribute to the dramatic cellular, genetic, and network circuit changes. Participating neurotransmitters are seen in afferent inputs, efferent output, and the SCN. There are numerous neurotransmitters involved in SCN function. Astrocytes co-exist with neurons in the SCN. Autonomous clocks seen in astrocytes can drive circadian behavior like neurons. Astrocytes and neurons are acting as two arms of the clock. Coupling through glutamate released from astrocytes gives additional evidence for the role of astrocytes. Glutaminergic signaling from astrocytes may also be responsible for timekeeping. The neurotransmitters can independently and in combination execute the functions making SCN a unique pacemaker for the overt expression of circadian rhythms. This reassessment also highlights its role in underlying molecular mechanisms, genetic linkage, and the recently known role of astrocytes.

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Daytime light enhances the amplitude of circadian output in a diurnal mammal

Cited by 3 publications

References 49 publications

Postoperative cognitive dysfunction: spotlight on light, circadian rhythms, and sleep

Postoperative cognitive dysfunction: spotlight on light, circadian rhythms, and sleep

Daily electrical activity in the master circadian clock of a diurnal mammal

Functional interactions between neurotransmitters and neuropeptides in regulating suprachiasmatic nucleus function and circadian rhythms

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