Altering rRNA 2’O-methylation pattern during neuronal differentiation is regulated by FMRP

Document Type

Article

Publication Title

RNA Biology

Abstract

The Fragile X Messenger Ribonucleoprotein (FMRP) is a selective RNA-binding protein that localizes to the cytoplasm and the nucleus. The loss of FMRP results in Fragile X Syndrome (FXS), an autism spectrum disorder. FMRP interacts with ribosomes and regulates the translation of mRNAs essential for neuronal development and synaptic plasticity. However, the biochemical nature of this translation regulation is unknown. Here, we report that a potential feature of FMRP-mediated translation regulation during neuronal differentiation is the modulation of 2’-O-methylation of ribosomal RNA. 2’O-methylation, facilitated by C/D box snoRNAs in the nucleus, is a major epitranscriptome mark on rRNA, essential for ribosome assembly and function. We found that FMRP influences a distinct rRNA 2’O-Methylation pattern across neuronal differentiation. We show that in H9 ESCs, FMRP interacts with a selected set of C/D box snoRNA in the nucleus, resulting in the generation of ribosomes with a distinct pattern of rRNA 2’O-Methylation. This epitranscriptome pattern on rRNA undergoes a significant change during the differentiation of ESCs to neuronal precursors and cortical neurons. ESCs exhibit substantial levels of hypomethylated residues on rRNA, which progressively decrease in neuronal precursors and post-mitotic cortical neurons. This reduction correlates with changes in global protein synthesis across different stages of differentiation. Importantly, this stepwise change in the 2’O-methylation pattern during neuronal differentiation is altered in the absence of FMRP, which could impact neuronal development and contribute to dysregulated protein synthesis observed in Fragile X Syndrome.

First Page

1

Last Page

22

DOI

10.1080/15476286.2025.2563986

Publication Date

1-1-2025

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