研究动态
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m6A 驱动的 NAT10 翻译促进脂肪酸代谢重连,通过增强 ACOT7 mRNA 乙酰化来抑制铁死亡并促进卵巢肿瘤发生。

m6A-driven NAT10 translation facilitates fatty acid metabolic rewiring to suppress ferroptosis and promote ovarian tumorigenesis through enhancing ACOT7 mRNA acetylation.

发表日期:2024 Oct 10
作者: Yujiao Liu, Jia Li, Jie Xu, Yingfei Long, Yuan Wang, Xiaoyi Liu, Junchi Hu, Qinglv Wei, Qingya Luo, Fatao Luo, Fengjiang Qin, Qihua Yi, Yu Yang, Yongjun Dang, Jing Xu, Tao Liu, Ping Yi
来源: ONCOGENE

摘要:

RNA 表观遗传修饰与癌症进展有关。然而,不同 RNA 修饰之间的相互作用及其在癌症代谢中的作用在很大程度上仍未得到探索。我们的研究表明,N-乙酰转移酶 10 (NAT10) 在卵巢癌 (OC) 中显着上调,与患者不良预后相关。 IGF2BP1 在 OC 细胞中以 m6A 依赖性方式增强 NAT10 mRNA 的翻译。 NAT10 通过介导 ACOT7 mRNA 的 N4-乙酰胞苷 (ac4C) 修饰来驱动肿瘤发生,从而增强其稳定性和翻译。该 NAT10-ACOT7 轴调节癌细胞中的脂肪酸代谢,并通过抑制铁死亡来促进肿瘤进展。此外,我们的研究发现氟达拉滨是一种针对 NAT10 的小分子抑制剂,可抑制 ac4C 修饰和 ACOT7 mRNA 的表达。通过使用细胞来源的异种移植模型和患者来源的类器官模型,我们表明氟达拉滨可有效抑制卵巢肿瘤的发生。总体而言,我们的研究强调了 NAT10-ACOT7 轴在恶性癌症进展中的关键作用,强调了以 NAT10 介导的 ac4C 修饰为目标作为该疾病的可行治疗策略的潜力。© 2024。作者,独家施普林格自然有限公司的许可。
RNA epigenetic modifications have been implicated in cancer progression. However, the interplay between distinct RNA modifications and its role in cancer metabolism remain largely unexplored. Our study demonstrates that N-acetyltransferase 10 (NAT10) is notably upregulated in ovarian cancer (OC), correlating with poor patient prognosis. IGF2BP1 enhances the translation of NAT10 mRNA in an m6A-dependent manner in OC cells. NAT10 drives tumorigenesis by mediating N4-acetylcytidine (ac4C) modification of ACOT7 mRNA, thereby augmenting its stability and translation. This NAT10-ACOT7 axis modulates fatty acid metabolism in cancer cells and promotes tumor progression by suppressing ferroptosis. Additionally, our research identifies fludarabine as a small molecule inhibitor targeting NAT10, inhibits the ac4C modification and expression of ACOT7 mRNA. By using cell derived xenograft model and patient derived organoid model, we show that fludarabine effectively suppresses ovarian tumorigenesis. Overall, our study highlights the pivotal role of the NAT10-ACOT7 axis in the malignant cancer progression, underscoring the potential of targeting NAT10-mediated ac4C modification as a viable therapeutic strategy for this disease.© 2024. The Author(s), under exclusive licence to Springer Nature Limited.