Identification of Wilms' Tumor 1-associating Protein Complex and Its Role in Alternative Splicing and the Cell Cycle

Horiuchi, Keiko; Kawamura, Takeshi; Iwanari, Hiroko; Ohashi, Riuko; Naito, Makoto; Kodama, Tatsuhiko; Hamakubo, Takao

doi:10.1074/jbc.m113.500397

Cited by 298 publications

(413 citation statements)

References 62 publications

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“…RS domain is typical of splicing factors that are involved in pre-mRNA biogenesis and pre-mRNA splicing 8,10 . Consistent with this, findings from several groups indeed indicate a role of BCLAF1 in pre-mRNA splicing 4,35 . As phosphorylated RS domain of splicing factors is well known to mediate multiple protein-protein interactions 8 , it is possible that different protein interactions involving BCLAF1 might induce distinct functions at different cellular contexts.…”

Section: Discussionsupporting

confidence: 73%

BCLAF1 and its splicing regulator SRSF10 regulate the tumorigenic potential of colon cancer cells

et al. 2014

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Bcl-2-associated transcription factor 1 (BCLAF1) is known to be involved in multiple biological processes. Although several splice variants of BCLAF1 have been identified, little is known about how BCLAF1 splicing is regulated or the contribution of alternative splicing to its developmental functions. Here we find that inclusion of alternative exon5a was significantly increased in colorectal cancer (CRC) samples. Knockdown of the BCLAF1 protein isoform resulting from exon5a inclusion inhibited growth and that its overexpression increased tumorigenic potential. We also found that the splicing factor SRSF10 stimulates inclusion of exon5a and has growth-inducing activity. Importantly, the upregulation of SRSF10 expression observed in clinical CRC samples parallels the increased inclusion of BCLAF1 exon5a, both of which are associated with higher tumour grade. These findings identify SRSF10 as a key regulator of BCLAF1 pre-mRNA splicing and the maintenance of oncogenic features in human colon cancer cells.

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Section: Discussionsupporting

confidence: 73%

BCLAF1 and its splicing regulator SRSF10 regulate the tumorigenic potential of colon cancer cells

et al. 2014

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“…RBM15 is required to maintain the homeostasis of long-term hematopoietic stem cells and the differentiation of MK cells (10,11). RBM15 protein stability is controlled by PRMT1 (5).…”

Section: Discussionmentioning

confidence: 99%

“…The lentiviral vector, pTripZ (Open Biosystems; Dharmacon), was engineered to express PRMT1 by replacing the shRNA cassette with the PRMT1 coding sequence to achieve robust PRMT1 expression in hematopoietic cells. A total of 15 µg lentivirus plasmids expressing the cDNA of PRMT1 V2, short hairpin (sh)RBM15#1 and shRBM15#2 (11,12) were transfected into 293T cells (American Type Culture Collection, Manassas, VA, USA) with helper plasmids. The 293T cells were cultured in Dulbecco's modified Eagle's medium with 10% FBS at 37˚C in an incubator with 5% CO 2 .…”

Section: Purification Of Cord Blood Cd34mentioning

confidence: 99%

PRMT1-RBM15 axis regulates megakaryocytic differentiation of human umbilical cord blood CD34+ cells

Jin

Song

et al. 2018

Exp Ther Med

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Abstract. Protein arginine methyltransferase 1 (PRMT1) serves pivotal roles in various cellular processes. However, its role in megakaryocytic differentiation has not been clearly reported. The aim of the present study was to explore the role of the PRMT-RNA binding motif protein 15 (RBM15) axis in human MK differentiation and the feasibility of targeting PRMT1 for leukemia treatment. In the present study, PRMT1 was overexpressed and the RBM15 protein was knocked down in human umbilical cord blood cluster of differentiation (CD)34 + cells and the cells were then cultured in megakaryocytic differentiation medium. Flow cytometry was used to analyze CD41 and CD42 double-positive cells, as well as the protein expression levels of PRMT1 and RBM15. The results demonstrated that human cord blood CD34 + cells differentiate into mature MKs in high thrombopoitin medium, as demonstrated by CD41 and CD42 expression. Overexpression of PRMT1 in human umbilical cord blood CD34 + cells blocked the maturation of megakaryocytic cells. Knockdown of RBM15 by short hairpin RNA produced less mature MKs. PRMT1 inhibitor rescued PRMT1-blocked megakaryocytic differentiation. These results provide evidence for a novel role of PRMT1 in the negative regulation of megakaryocytic differentiation. PRMT1 may be a therapeutic target for leukemia treatment.

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“…1; Liu et al 2014;Ping et al 2014). WTAP was initially shown to act as a splicing factor that binds to Wilms' tumor 1 protein (Little et al 2000) and plays a regulatory role in cell cycle progression and early embryo development (Horiuchi et al 2006(Horiuchi et al , 2013. The first evidence of WTAP as a third component of the methyltransferase complex came from the coimmunoprecipitation result, which showed that WTAP readily binds to the METTL3-METTL14 heterodimer inside cells, although the interactions between WTAP and the two methyltransferases are weaker compared with that between METTL3 and METTL14 .…”

Section: Features Of M 6 a On A Global Scalementioning

confidence: 99%

RNA N⁶-methyladenosine methylation in post-transcriptional gene expression regulation

2015

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N6 -methyladenosine (m 6 A) is the most prevalent and internal modification that occurs in the messenger RNAs (mRNA) of most eukaryotes, although its functional relevance remained a mystery for decades. This modification is installed by the m 6 A methylation "writers" and can be reversed by demethylases that serve as "erasers." In this review, we mainly summarize recent progress in the study of the m 6 A mRNA methylation machineries across eukaryotes and discuss their newly uncovered biological functions. The broad roles of m 6 A in regulating cell fates and embryonic development highlight the existence of another layer of epigenetic regulation at the RNA level, where mRNA is subjected to chemical modifications that affect protein expression.

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Identification of Wilms' Tumor 1-associating Protein Complex and Its Role in Alternative Splicing and the Cell Cycle

Cited by 298 publications

References 62 publications

BCLAF1 and its splicing regulator SRSF10 regulate the tumorigenic potential of colon cancer cells

BCLAF1 and its splicing regulator SRSF10 regulate the tumorigenic potential of colon cancer cells

PRMT1-RBM15 axis regulates megakaryocytic differentiation of human umbilical cord blood CD34+ cells

RNA N⁶-methyladenosine methylation in post-transcriptional gene expression regulation

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Identification of Wilms' Tumor 1-associating Protein Complex and Its Role in Alternative Splicing and the Cell Cycle

Cited by 298 publications

References 62 publications

BCLAF1 and its splicing regulator SRSF10 regulate the tumorigenic potential of colon cancer cells

BCLAF1 and its splicing regulator SRSF10 regulate the tumorigenic potential of colon cancer cells

PRMT1-RBM15 axis regulates megakaryocytic differentiation of human umbilical cord blood CD34+ cells

RNA N6-methyladenosine methylation in post-transcriptional gene expression regulation

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Product

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RNA N⁶-methyladenosine methylation in post-transcriptional gene expression regulation