hNOP2/NSUN1 Regulates Ribosome Biogenesis through Stabilization of snoRNP Complexes and Cytosine-5 Methylation of 28S rRNA

Abstract

ABSTRACT5-Methylcytosine (m5C) is a base modification broadly found on a variety of RNAs in the human transcriptome. In eukaryotes m5C is catalyzed by enzymes of the NSUN family, which is composed of seven members in humans (NSUN1-7). NOP2/NSUN1 has been mostly characterized in budding yeast as an essential ribosome biogenesis factor required for the deposition of m5C on the 25S rRNA. Although human NOP2/NSUN1 has been known to be an oncogene overexpressed in several types of cancer, its functions remain poorly characterized. To define the roles of human NOP2/NSUN1, we used an miCLIP-seq approach to identify its RNA substrates. Our analysis reveals that vault RNA 1.2 and rRNA are NOP2/NSUN1-specific methylated targets and we further confirm by bisulfite sequencing that NOP2/NSUN1 is responsible for the deposition of m5C at residue 4447 on the 28S rRNA. Depletion of NOP2/NSUN1 impairs cell proliferation, rRNA processing and 60S ribosome biogenesis. Additionally, we find that NOP2/NSUN1 binds to the 5’ETS region of the pre-rRNA transcript and regulates pre-rRNA processing in part through non-catalytic complex formation with box C/D snoRNAs. Our study identifies for the first time the RNA substrates of human NOP2/NSUN1 and reveals additional functions in rRNA processing beyond catalyzing m5C base modification.