Abstract
The night and day cycle governs the circadian (24 hourly) rhythm of activity and rest in animals and humans. This is reflected in daily changes of the global gene expression pattern and metabolism, but also in the local physiology of various tissues. A central clock in the brain co-ordinates the rhythmic locomotion behaviour, as well as synchronizing various local oscillators, such as those found in the musculoskeletal system. It has become increasingly recognized that the internal molecular clocks in cells allow a tissue to anticipate the rhythmic changes in their local environment and the specific demands of that tissue. Consequently, the majority of the rhythmic clock controlled genes and pathways are tissue specific. The concept of the tissue-specific function of circadian clocks is further supported by the diverse musculoskeletal phenotypes in mice with deletions or mutations of various core clock components, ranging from increased bone mass, dwarfism, arthropathy, reduced muscle strength and tendon calcification. The present review summarizes the current understanding of the circadian clocks in muscle, bone, cartilage and tendon tissues, with particular focus on the evidence of circadian rhythms in tissue physiology, their entrainment mechanisms and disease links, and the tissue-specific clock target genes/pathways. Research in this area holds strong potential to advance our understanding of how circadian rhythms control the health and disease of the musculoskeletal tissues, which has major implications in diseases associated with advancing age. It could also have potential implications in sports performance and sports medicine.
Highlights
The mammalian circadian system is organized in a hierarchical manner
Circadian time series microarrays of the musculoskeletal system showed that the circadian clock controls tissue specific sets of target genes, many of which were hallmark transcription factors, key signalling pathways or structural components of the particular tissue
Diurnal variations in serum markers of bone and cartilage metabolism and time of day dependent neuromuscular performance were known to exist for a long time, only several studies in the last decade addressed the roles of the peripheral clocks in homoeostasis of the musculoskeletal system
Summary
The mammalian circadian system is organized in a hierarchical manner. The central clock [SCN (suprachiasmatic nuclei)] in the hypothalamus controls rest/activity rhythms, and is entrained on a daily basis by the LD (light–dark) cycle, whereas clocks in peripheral tissues were thought to be slave oscillators, subject to the neuronal or hormonal control by the SCN. Circadian time series microarrays of the musculoskeletal system showed that the circadian clock controls tissue specific sets of target genes, many of which were hallmark transcription factors, key signalling pathways or structural components of the particular tissue. The daily loading/unloading of tendons during the rest/activity cycle suggests potential circadian control of tissue physiology.
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