Jiao-Na Zhang, Rui-Ting Wang, Francesca-Gioia Klinger, Shun-Feng Cheng, Wei Shen, Xiao-Feng Sun. 2024. RNA m6A dynamic modification mediated by nucleus-localized FTO is involved in follicular reserve. Zoological Research, 45(2): 415-428. DOI: 10.24272/j.issn.2095-8137.2023.236
Citation: Jiao-Na Zhang, Rui-Ting Wang, Francesca-Gioia Klinger, Shun-Feng Cheng, Wei Shen, Xiao-Feng Sun. 2024. RNA m6A dynamic modification mediated by nucleus-localized FTO is involved in follicular reserve. Zoological Research, 45(2): 415-428. DOI: 10.24272/j.issn.2095-8137.2023.236

RNA m6A dynamic modification mediated by nucleus-localized FTO is involved in follicular reserve

  • In eukaryotic organisms, the most common internal modification of messenger RNA (mRNA) is N6-methyladenosine (m6A). This modification can be dynamically and reversibly controlled by specific enzymes known as m6A writers and erasers. The fat-mass and obesity-associated protein (FTO) catalyzes RNA demethylation and plays a critical role in various physiological and pathological processes. Our research identified dynamic alterations in both m6A and FTO during the assembly of primordial follicles, with an inverse relationship observed for m6A levels and nuclear-localized FTO expression. Application of Fto small interfering RNA (siRNA) altered the expression of genes related to cell proliferation, hormone regulation, and cell chemotaxis, and affected RNA alternative splicing. Overexpression of the full-length Fto gene led to changes in m6A levels, alternative splicing of Cdk5, cell proliferation, cell cycle progression, and proportion of primordial follicles. Conversely, overexpression of Fto lacking a nuclear localization signal (NLS) did not significantly alter m6A levels or primordial follicle assembly. These findings suggest that FTO, localized in the nucleus but not in the cytoplasm, regulates RNA m6A demethylation and plays a role in cell proliferation, cell cycle progression, and primordial follicle assembly. These results highlight the potential of m6A and its eraser FTO as possible biomarkers and therapeutic targets.
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