We previously demonstrated that chemopreventive methylselenocysteine (MSC) prevents N-Nitroso-N-methylurea (NMU)-induced mammary carcinogenesis in the susceptible Fischer 344 (F344) rats by enhancing NAD+-dependent SIRT1 activity, restoring circadian expression of Period 2 (Per2) and circadian controlled genes.
Since, the circadian clock controls expression of cell-cycle related genes, we suggest that disturbances in PER2 gene expression may result in disruption of the control of the normal circadian clock, thus benefiting the survival of cancer cells and promoting carcinogenesis.
Ectopic expression of PER2 inhibited IL-6 or CCL2 induced mammosphere forming ability and reduced sphere size indicating that PER2 repression in breast epithelial cells can be crucial to activate tumorigenesis in an inflammatory microenvironment.
Low expression of the clock gene PER2 is closely related to carcinogenesis and the development of cancer; however, the mechanism of the low expression of PER2 that led to cell malignant transformation remains unclear.
Because the circadian clock regulates the expression of cell cycle-related genes, we suggest that disturbances in PER2 gene expression may disrupt the regulation of the circadian clock, thus enhancing the survival of cancer cells and promoting carcinogenesis.