A mathematical model of melatonin synthesis and interactions with the circadian clock.

Authors

Best, J; Kim, R; Reed, M; Nijhout, HF

Abstract

A new mathematical model of melatonin synthesis in pineal cells is created and connected to a slightly modified previously created model of the circadian clock in the suprachiasmatic nucleus (SCN). The SCN influences the production of melatonin by upregulating two key enzymes in the pineal. The melatonin produced enters the blood and the cerebrospinal fluid and thus the SCN, influencing the circadian clock. We show that the model of melatonin synthesis corresponds well with extant experimental data and responds similarly to clinical experiments on bright light in the middle of the night. Melatonin is widely used to treat jet lag and sleep disorders. We show how the feedback from the pineal to the SCN causes phase resetting of the circadian clock. Melatonin doses early in the evening advance the clock and doses late at night delay the clock with a dead zone in between where the phase of the clock does not change.

Citation

Best, Janet, Ruby Kim, Michael Reed, and H Frederik Nijhout. “A mathematical model of melatonin synthesis and interactions with the circadian clock.” Mathematical Biosciences 377 (September 2024): 109280. https://doi.org/10.1016/j.mbs.2024.109280.
Mathematical Biosciences

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