U2-2 snRNA Mutations Alter the Transcriptome

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The paper studied how intron-splicing changes and downstream gene-expression programs are altered by mutations in the U2 snRNA component of the spliceosome, focusing on U2-2 C28 mutants and comparing them with U2-2 knockout and U2-2 overexpression cell lines. Using RNA sequencing, the authors found that both gene expression and splicing were significantly altered, with over 4,000 differentially expressed genes enriched in pathways related to RNA processing and non-coding RNAs, and with splicing patterns driven more strongly by U2-2 dosage than by the C28 mutations alone. They report that the mutant shows a compound phenotype, largely phenocopying the knockout via reduced U2-2 levels while also producing mutant-specific splicing changes, and note that many altered splice events can lead to NMD. The paper does not explicitly discuss endometriosis or adenomyosis; it was included in the corpus via a keyword match in the upstream search index.

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SUMMARY Intron removal from pre-mRNA is catalyzed by the spliceosome, which comprises 5 snRNPs containing small nuclear RNAs (snRNAs). U2 snRNA makes critical RNA-RNA and RNA-protein contacts throughout the splicing cycle. Mutations in U2 snRNA, particularly at position C28, have been linked to cancers. To study gene expression changes mediated by mutated U2 snRNAs, U2-2 C28 mutants, U2-2 knockout (KO), and U2-2 overexpression (OE) cell lines were constructed followed by RNA sequencing. We observed significant changes in splicing and over 4,000 differentially expressed genes enriched in pathways like RNA processing and non-coding RNAs upon knocking out U2-2 snRNA. Splicing patterns were more influenced by U2-2 dosage than mutations alone. Therefore, the mutant exhibits a compound phenotype, resulting from reduced U2-2 levels (and thus mostly phenocopying the KO) and additional mutant-specific splicing changes. HIGHLIGHTS U2-2 snRNA BSL mutants alter splicing and the transcriptome U2-2 KO phenocopies most altered splice events in the mutants Both U2-2 levels and mutations alter splicing Many altered splice events lead to NMD Competing Interest Statement The authors have declared no competing interest. Footnotes ↵2 Lead Contact

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europepmc
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