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C/D box snoRNA SNORD113-6/AF357425 plays a dual role in integrin signalling and arterial fibroblast function via pre-mRNA processing and 2′O-ribose methylation

Eva van Ingen, Daphne A. L. van den Homberg, M. Leontien van der Bent, Hailiang Mei, Nikolina Papac-Miličević, Veerle Kremer, Reinier A. Boon, Paul H.A. Quax, Johann Wojta, A. Yaël Nossent

2021Human Molecular Genetics25 citationsDOIOpen Access PDF

Abstract

We have previously shown that C/D box small nucleolar RNAs (snoRNAs) transcribed from the DLK1-DIO3 locus on human chromosome 14 (14q32) are associated with cardiovascular disease. DLK1-DIO3 snoRNAs are 'orphan snoRNAs' that have no known targets. We aimed to identify RNA targets and elucidate the mechanism-of-action of human SNORD113-6 (AF357425 in mice). As AF357425-knockout cells were non-viable, we induced overexpression or inhibition of AF357425 in primary murine fibroblasts and performed RNA-Seq. We identified several pre-mRNAs with conserved AF357425/SNORD113-6 D'-seed binding sites in the last exon/3' untranslated region (3'UTR), which directed pre-mRNA processing and splice-variant-specific protein expression. We also pulled down the snoRNA-associated methyltransferase fibrillarin from AF357425-High versus AF357425-Low fibroblast lysates, followed by RNA isolation, ribosomal RNA depletion and RNA-Seq. Identifying mostly mRNAs, we subjected these to PANTHER pathway analysis and observed enrichment for genes in the integrin pathway. We confirmed 2'O-ribose methylation in six integrin pathway mRNAs (MAP2K1, ITGB3, ITGA7, PARVB, NTN4 and FLNB). Methylation and mRNA expressions were decreased while mRNA degradation was increased under AF357425/SNORD113-6 inhibition in both murine and human primary fibroblasts, but effects on protein expression were more ambiguous. Integrin signalling is crucial for cell-cell and cell-matrix interactions, and correspondingly, we observed altered human primary arterial fibroblast function upon SNORD113-6 inhibition.

Topics & Concepts

BiologySmall nucleolar RNAMolecular biologyRNAMethylationMessenger RNARNA splicingRNA-binding proteinFibrillarinUntranslated regionNon-coding RNAMethyltransferaseCell biologyGeneticsGeneCancer-related molecular mechanisms researchRNA modifications and cancerRNA Research and Splicing