AI Article Synopsis
- Almost all physiological and behavioral patterns follow a 24-hour cycle, influenced by internal biological clocks that adapt to environmental changes such as light and darkness.
- Disruptions to these circadian rhythms, often caused by modern lifestyles, can have significant negative effects on health.
- Recent research has shown that astrocytes, previously thought to only support brain functions, play an active role in circadian rhythm regulation alongside neurons, by influencing neurotransmitter levels and thus impacting neuronal activity in the suprachiasmatic nucleus (SCN) of the brain.
Article Abstract
Almost every facet of our behavior and physiology varies predictably over the course of day and night, anticipating and adapting us to their associated opportunities and challenges. These rhythms are driven by endogenous biological clocks that, when deprived of environmental cues, can continue to oscillate within a period of approximately 1 day, hence -. Normally, retinal signals synchronize them to the cycle of light and darkness, but disruption of circadian organization, a common feature of modern lifestyles, carries considerable costs to health. Circadian timekeeping pivots around a cell-autonomous molecular clock, widely expressed across tissues. These cellular timers are in turn synchronized by the principal circadian clock of the brain: the hypothalamic suprachiasmatic nucleus (SCN). Intercellular signals make the SCN network a very powerful pacemaker. Previously, neurons were considered the sole SCN timekeepers, with glial cells playing supportive roles. New discoveries have revealed, however, that astrocytes are active partners in SCN network timekeeping, with their cell-autonomous clock regulating extracellular glutamate and GABA concentrations to control circadian cycles of SCN neuronal activity. Here, we introduce circadian timekeeping at the cellular and SCN network levels before focusing on the contributions of astrocytes and their mutual interaction with neurons in circadian control in the brain.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7616557 | PMC |
| http://dx.doi.org/10.1177/10738584241245307 | DOI Listing |
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