AI Article Synopsis
- The SCN, a central pacemaker in mammals, regulates circadian rhythms by translating light and dark signals into neuronal and hormonal responses in peripheral tissues.
- Various systemic cues, like feeding and hormones, help synchronize these peripheral rhythms, with cortisol being a key player in adjusting peripheral clock genes.
- The proposed model highlights how cortisol's amplitude and frequency influence synchronization among peripheral cells, suggesting that chronic stress can lead to a breakdown in communication between the SCN and peripheral tissues, resulting in desynchronized circadian rhythms.
Article Abstract
Circadian rhythmicity in mammals is primarily driven by the suprachiasmatic nucleus (SCN), often called the central pacemaker, which converts the photic information of light and dark cycles into neuronal and hormonal signals in the periphery of the body. Cells of peripheral tissues respond to these centrally mediated cues by adjusting their molecular function to optimize organism performance. Numerous systemic cues orchestrate peripheral rhythmicity, such as feeding, body temperature, the autonomic nervous system, and hormones. We propose a semimechanistic model for the entrainment of peripheral clock genes by cortisol as a representative entrainer of peripheral cells. This model demonstrates the importance of entrainer's characteristics in terms of the synchronization and entrainment of peripheral clock genes, and predicts the loss of intercellular synchrony when cortisol moves out of its homeostatic amplitude and frequency range, as has been observed clinically in chronic stress and cancer. The model also predicts a dynamic regime of entrainment, when cortisol has a slightly decreased amplitude rhythm, where individual clock genes remain relatively synchronized among themselves but are phase shifted in relation to the entrainer. The model illustrates how the loss of communication between the SCN and peripheral tissues could result in desynchronization of peripheral clocks.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3426436 | PMC |
| http://dx.doi.org/10.1152/physiolgenomics.00001.2012 | DOI Listing |
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