Human PRPF40B regulates hundreds of alternative splicing targets and represses a hypoxia expression signature

Lorenzini, Paolo Alberto; Chew, Resilind Su Ern; Tan, Cheryl Weiqi; Yong, Jing Yen; Zhang, Fan; Zheng, Jie; Roca, Xavier

doi:10.1261/rna.069534.118

Cited by 18 publications

(25 citation statements)

References 87 publications

(109 reference statements)

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“…We observed that there was an enrichment of genes related to RNA splicing and metabolism among the intron-retaining genes. Splicing factors affected by IR particularly in Ctcf +/- liver and kidney such as Srsf1, Esrp2 and Prpf40b have been previously reported to be associated with the regulation of AS including IR [ 35 , 59 , 60 ]. In addition to splicing, genes involved in metabolic processes were affected by IR in Ctcf haploinsufficient liver.…”

Section: Discussionmentioning

confidence: 99%

Ctcf haploinsufficiency mediates intron retention in a tissue-specific manner

et al. 2020

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CTCF is a master regulator of gene transcription and chromatin organisation with occupancy at thousands of DNA target sites genome-wide. While CTCF is essential for cell survival, CTCF haploinsufficiency is associated with tumour development and hypermethylation. Increasing evidence demonstrates CTCF as a key player in several mechanisms regulating alternative splicing (AS), however, the genome-wide impact of Ctcf dosage on AS has not been investigated. We examined the effect of Ctcf haploinsufficiency on gene expression and AS in five tissues from Ctcf hemizygous ( Ctcf +/- ) mice. Reduced Ctcf levels caused distinct tissue-specific differences in gene expression and AS in all tissues. An increase in intron retention (IR) was observed in Ctcf +/- liver and kidney. In liver, this specifically impacted genes associated with cytoskeletal organisation, splicing and metabolism. Strikingly, most differentially retained introns were short, with a high GC content and enriched in Ctcf binding sites in their proximal upstream genomic region. This study provides new insights into the effects of CTCF haploinsufficiency on organ transcriptomes and the role of CTCF in AS regulation.

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Section: Discussionmentioning

confidence: 99%

Ctcf haploinsufficiency mediates intron retention in a tissue-specific manner

et al. 2020

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“…We observed that there was an enrichment of genes related to RNA splicing and metabolism among the intron-retaining genes. Splicing factors affected by IR particularly in Ctcf +/liver and kidney such as Srsf1, Esrp2 and Prpf40b have been previously reported to be associated with the regulation of AS including IR [35,57,58]. In addition to splicing, genes involved in metabolic processes were affected by IR in Ctcf haploinsufficient liver.…”

Section: Discussionmentioning

confidence: 99%

CtcfHaploinsufficiency Mediates Intron Retention in A Tissue-specific Manner

Alharbi

Schmitz

Marshall

et al. 2019

Preprint

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CTCF is a master regulator of gene transcription and chromatin organization with occupancy at thousands of DNA target sites. CTCF is essential for embryonic development and somatic cell viability and has been characterized as a haploinsufficient tumor suppressor. Increasing evidence demonstrates CTCF as a key player in several alternative splicing (AS) regulatory mechanisms, including transcription elongation, regulation of splicing factors, and epigenetic regulation.However, the genome-wide impact of Ctcf dosage on AS has not been investigated.We examined the effect of Ctcf haploinsufficiency on gene expression and AS in multiple tissues from Ctcf hemizygous (Ctcf +/-) mice. Distinct tissue-specific differences in gene expression and AS were observed in Ctcf +/mice compared to wildtype mice. We observed a surprisingly large number of increased intron retention (IR) events in Ctcf +/liver and kidney, specifically in genes associated with cytoskeletal organization, splicing and metabolism. This study provides further evidence for Ctcf dose-dependent and tissue-specific regulation of gene expression and AS. Our data provide a strong foundation for elucidating the mechanistic role of CTCF in AS regulation and its biological consequences.

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“…Alternative splicing differences were analysed by an in-house pipeline using replicate MATS (rMATS 4.0.2) and filtered based on cut-offs of FDR ≤ 0.05, an absolute change in percent spliced in (|ΔPSI|) ≥ 0.1 ( 35 , 36 ). In addition, events with a mean junction count <20 for either condition, as well as those with <10 inclusion or spliced junction counts for both conditions, were filtered out to enhance the reliability of our splicing dataset.…”

Section: Methodsmentioning

confidence: 99%

METTL4 catalyzes m6Am methylation in U2 snRNA to regulate pre-mRNA splicing

Goh

Koh

Sim

et al. 2020

Nucleic Acids Research

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N 6-methylation of 2′-O-methyladenosine (Am) in RNA occurs in eukaryotic cells to generate N6,2′-O-dimethyladenosine (m6Am). Identification of the methyltransferase responsible for m6Am catalysis has accelerated studies on the function of m6Am in RNA processing. While m6Am is generally found in the first transcribed nucleotide of mRNAs, the modification is also found internally within U2 snRNA. However, the writer required for catalyzing internal m6Am formation had remained elusive. By sequencing transcriptome-wide RNA methylation at single-base-resolution, we identified human METTL4 as the writer that directly methylates Am at U2 snRNA position 30 into m6Am. We found that METTL4 localizes to the nucleus and its conserved methyltransferase catalytic site is required for U2 snRNA methylation. By sequencing human cells with overexpressed Mettl4, we determined METTL4’s in vivo target RNA motif specificity. In the absence of Mettl4 in human cells, U2 snRNA lacks m6Am thereby affecting a subset of splicing events that exhibit specific features such as 3′ splice-site weakness and an increase in exon inclusion. These findings suggest that METTL4 methylation of U2 snRNA regulates splicing of specific pre-mRNA transcripts.

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Human PRPF40B regulates hundreds of alternative splicing targets and represses a hypoxia expression signature

Cited by 18 publications

References 87 publications

Ctcf haploinsufficiency mediates intron retention in a tissue-specific manner

Ctcf haploinsufficiency mediates intron retention in a tissue-specific manner

CtcfHaploinsufficiency Mediates Intron Retention in A Tissue-specific Manner

METTL4 catalyzes m6Am methylation in U2 snRNA to regulate pre-mRNA splicing

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