Nuclear compartmentalization of TERT mRNA and TUG1 lncRNA transcripts is driven by intron retention: implications for RNA-directed therapies

Dumbović, Gabrijela; Braunschweig, Ulrich; Langner, Heera K.; Jastrzębska, Katarzyna; Smallegan, Michael J.; Blencowe, Benjamin J.; Cech, Thomas R.; Caruthers, Marvin H.; Rinn, John L.

doi:10.1101/2020.07.21.212514

2020

DOI: 10.1101/2020.07.21.212514

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Nuclear compartmentalization of TERT mRNA and TUG1 lncRNA transcripts is driven by intron retention: implications for RNA-directed therapies

Gabrijela Dumbović

Ulrich Braunschweig

Heera K. Langner

et al.

Abstract: Numerous global connections have been made between splicing and other layers of gene regulation, including the spatial partitioning of the transcriptome in the cell. Yet, there has been surprisingly little analysis of the spatio-temporal regulation of individual protein-coding and non-coding RNA molecules in single cells. Here we address how intron retention influences the spatio-temporal dynamics of transcripts from two clinically relevant genes: TERT (Telomerase Reverse Transcriptase) pre-mRNA and TUG1 (Taur… Show more

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Identification of human long noncoding RNAs associated with nonalcoholic fatty liver disease and metabolic homeostasis

Ruan¹,

Li²,

Ma³

et al. 2021

Journal of Clinical Investigation

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A growing number of long non-coding RNAs (lncRNAs) have emerged as vital metabolic regulators. However, most human lncRNAs are non-conserved and highly tissue-specific, vastly limiting our ability to identify human lncRNA metabolic regulators (hLMRs). In this study, we establish a pipeline to identify putative hLMRs that are metabolically sensitive, disease-relevant, and population applicable. We first progressively processed multilevel human transcriptome data to select liver lncRNAs that exhibit highly dynamic expression in the general population, show differential expression in a nonalcoholic fatty liver disease (NAFLD) population, and response to dietary intervention in a small NAFLD cohort. We then experimentally demonstrated the responsiveness of selected hepatic lncRNAs to defined metabolic milieus in a liver-specific humanized mouse model. Furthermore, by extracting a concise list of protein-coding genes that are persistently correlated with lncRNAs in general and NAFLD populations, we predicted the specific function for each hLMR. Using gain-and loss-of-function approaches in humanized mice as well as ectopic expression in conventional mice, we validated the regulatory role of one nonconserved hLMR in cholesterol metabolism by coordinating with an RNA-binding protein, PTBP1, to modulate the transcription of cholesterol synthesis genes. Our work overcome the heterogeneity intrinsic to human data to enable the efficient identification and functional definition of diseaserelevant human lncRNAs in metabolic homeostasis.

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Identification of human long noncoding RNAs associated with nonalcoholic fatty liver disease and metabolic homeostasis

Ruan¹,

Li²,

Ma³

et al. 2021

Journal of Clinical Investigation

Self Cite

View full text Add to dashboard Cite

show abstract

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Nuclear compartmentalization of TERT mRNA and TUG1 lncRNA transcripts is driven by intron retention: implications for RNA-directed therapies

Cited by 1 publication

References 77 publications

Identification of human long noncoding RNAs associated with nonalcoholic fatty liver disease and metabolic homeostasis

Identification of human long noncoding RNAs associated with nonalcoholic fatty liver disease and metabolic homeostasis

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