Litcius/Paper detail

ALKBH3-dependent m1A demethylation of Aurora A mRNA inhibits ciliogenesis

Wenjun Kuang, Hao Jin, Feng Yang, Xiying Chen, Jianzhao Liu, Ting Li, Yongxia Chang, Min Liu, Zhangqi Xu, Chunxiao Huo, Xiaoyi Yan, Yuehong Yang, Wei Liu, Qiang Shu, Shanshan Xie, Tianhua Zhou

2022Cell Discovery58 citationsDOIOpen Access PDF

Abstract

Abstract Primary cilia are antenna-like subcellular structures to act as signaling platforms to regulate many cellular processes and embryonic development. m 1 A RNA modification plays key roles in RNA metabolism and gene expression; however, the physiological function of m 1 A modification remains largely unknown. Here we find that the m 1 A demethylase ALKBH3 significantly inhibits ciliogenesis in mammalian cells by its demethylation activity. Mechanistically, ALKBH3 removes m 1 A sites on mRNA of Aurora A , a master suppressor of ciliogenesis. Depletion of ALKBH3 enhances Aurora A mRNA decay and inhibits its translation. Moreover, alkbh3 morphants exhibit ciliary defects, including curved body, pericardial edema, abnormal otoliths, and dilation in pronephric ducts in zebrafish embryos, which are significantly rescued by wild-type alkbh3 , but not by its catalytically inactive mutant. The ciliary defects caused by ALKBH3 depletion in both vertebrate cells and embryos are also significantly reversed by ectopic expression of Aurora A mRNA. Together, our data indicate that ALKBH3-dependent m 1 A demethylation has a crucial role in the regulation of Aurora A mRNA, which is essential for ciliogenesis and cilia-associated developmental events in vertebrates.

Topics & Concepts

CiliogenesisCiliumZebrafishCell biologySomitogenesisEctopic expressionMessenger RNABiologyDemethylaseEmbryoEmbryogenesisGeneticsEpigeneticsGeneSomiteRNA modifications and cancerGenetic and Kidney Cyst DiseasesEpigenetics and DNA Methylation