Long non-coding RNA generated from CDKN1A gene by alternative polyadenylation regulates p21 expression during DNA damage response.

TitleLong non-coding RNA generated from CDKN1A gene by alternative polyadenylation regulates p21 expression during DNA damage response.
Publication TypeJournal Article
Year of Publication2023
AuthorsMurphy MR, Ramadei A, Doymaz A, Varriano S, Natelson DM, Yu A, Aktas S, Mazzeo M, Mazzeo M, Zakusilo G, Kleiman FE
JournalNucleic Acids Res
Volume51
Issue21
Pagination11911-11926
Date Published2023 Nov 27
ISSN1362-4962
KeywordsCell Cycle, Cell Line, Tumor, Cyclin-Dependent Kinase Inhibitor p21, DNA Damage, Humans, Polyadenylation, Protein Isoforms, RNA, Long Noncoding, Tumor Suppressor Protein p53
Abstract

Alternative Polyadenylation (APA) is an emerging mechanism for dynamic changes in gene expression. Previously, we described widespread APA occurrence in introns during the DNA damage response (DDR). Here, we show that a DDR-activated APA event occurs in the first intron of CDKN1A, inducing an alternate last exon-containing lncRNA. We named this lncRNA SPUD (Selective Polyadenylation Upon DNA Damage). SPUD localizes to polysomes in the cytoplasm and is detectable as multiple isoforms in available high-throughput studies. SPUD has low abundance compared to the CDKN1A full-length isoform under non-stress conditions, and SPUD is induced in cancer and normal cells under a variety of DNA damaging conditions in part through p53. The RNA binding protein HuR binds to and promotes the stability of SPUD precursor RNA. SPUD induction increases p21 protein, but not mRNA levels, affecting p21 functions in cell-cycle, CDK2 expression and cell growth. Like CDKN1A full-length isoform, SPUD can bind two competitive p21 translational regulators, the inhibitor calreticulin and the activator CUGBP1; SPUD alters their association with CDKN1A full-length in a DDR-dependent manner, promoting CDKN1A translation. Together, these results show a new regulatory mechanism by which a lncRNA controls p21 expression post-transcriptionally, highlighting lncRNA relevance in DDR progression and cell-cycle.

DOI10.1093/nar/gkad899
Alternate JournalNucleic Acids Res
PubMed ID37870464
PubMed Central IDPMC10681730
Grant ListU54 CA221704 / CA / NCI NIH HHS / United States
R21 CA204610-01 / CA / NCI NIH HHS / United States
/ NH / NIH HHS / United States

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