AI Article Synopsis
- N6-methyladenosine (mA) is a key epitranscriptomic marker influencing RNA fate and exhibits a link with the circadian clock, especially in the suprachiasmatic nucleus (SCN) cells.
- Research shows that FTO demethylase regulates mA levels, influencing circadian rhythms of genes like Per2, with siRNA silencing indicating FTO's critical role in maintaining these rhythms.
- LPS treatment was found to upregulate mA levels while downregulating FTO expression, disrupting circadian patterns, and suggesting that reduced FTO may be a protective response against neuroinflammatory stress, as indicated by ROS production patterns in SCN primary cultures.
Article Abstract
N6-methyladenosine (mA) is the most abundant epitranscriptomic mark that regulates the fate of RNA molecules. Recent studies have revealed a bidirectional interaction between mA modification and the circadian clock. However, the precise temporal dynamics of mA global enrichment in the central circadian pacemaker have not been fully elucidated. Our study investigates the relationship between FTO demethylase and molecular clocks in primary cells of the suprachiasmatic nucleus (SCN). In addition, we examined the effects of lipopolysaccharide (LPS) on Fto expression and the role of FTO in LPS-induced reactive oxygen species (ROS) production in primary SCN cell culture. We observed circadian rhythmicity in the global mA levels, which mirrored the rhythmic expression of the Fto demethylase. Silencing FTO using siRNA reduced the mesor of Per2 rhythmicity in SCN primary cells and extended the period of the PER2 rhythm in SCN primary cell cultures from PER2::LUC mice. When examining the immune response, we discovered that exposure to LPS upregulated global mA levels while downregulating Fto expression in SCN primary cell cultures. Interestingly, we found a loss of circadian rhythmicity in Fto expression following LPS treatment, indicating that the decrease of FTO levels may contribute to mA upregulation without directly regulating its circadian rhythm. To explore potential protective mechanisms against neurotoxic inflammation, we examined ROS production following LPS treatment in SCN primary cell cultures pretreated with FTO siRNA. We observed a time-dependent pattern of ROS induction, with significant peak at 32 h but not at 20 h after synchronization. Silencing the FTO demethylase abolished ROS induction following LPS exposure, supporting the hypothesis that FTO downregulation serves as a protective mechanism during LPS-induced neuroinflammation in SCN primary cell cultures.
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