Polypyrimidine tract binding proteins (PTB) regulate the expression of apoptotic genes and susceptibility to caspase-dependent apoptosis in differentiating cardiomyocytes

Zhang, J; Bahí, Núria; Llovera, Marta; Comella, Joan X.; Sanchı́s, Daniel

doi:10.1038/cdd.2009.87

Cited by 35 publications

(37 citation statements)

References 31 publications

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“…The loss of CLK1 activity may disrupt a feedback loop because its kinase activity is critical for the phosphorylation of multiple SR proteins that regulate splicing (63,70,71). The inclusion of CASP3 exon 2 with EWS-FLI1 reduction places an internal ribosome entry site into the 5′-UTR of the mRNA (72). This 5′-UTR may enhance the translation of caspase-3, thus increasing its protein levels and in part explaining the increased apoptosis seen with YK-4-279 treatment (21).…”

Section: Yk-4-279 Alters Splicing Rather Than Direct Transcriptional mentioning

confidence: 99%

Oncogenic fusion protein EWS-FLI1 is a network hub that regulates alternative splicing

Selvanathan

Graham

Erkizan

et al. 2015

Proc. Natl. Acad. Sci. U.S.A.

118

135

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The synthesis and processing of mRNA, from transcription to translation initiation, often requires splicing of intragenic material. The final mRNA composition varies based on proteins that modulate splice site selection. EWS-FLI1 is an Ewing sarcoma (ES) oncoprotein with an interactome that we demonstrate to have multiple partners in spliceosomal complexes. We evaluate the effect of EWS-FLI1 on posttranscriptional gene regulation using both exon array and RNAseq. Genes that potentially regulate oncogenesis, including CLK1, CASP3, PPFIBP1, and TERT, validate as alternatively spliced by EWS-FLI1. In a CLIP-seq experiment, we find that EWS-FLI1 RNA-binding motifs most frequently occur adjacent to intron-exon boundaries. EWS-FLI1 also alters splicing by directly binding to known splicing factors including DDX5, hnRNP K, and PRPF6. Reduction of EWS-FLI1 produces an isoform of γ-TERT that has increased telomerase activity compared with wild-type (WT) TERT. The small molecule YK-4-279 is an inhibitor of EWS-FLI1 oncogenic function that disrupts specific protein interactions, including helicases DDX5 and RNA helicase A (RHA) that alters RNA-splicing ratios. As such, YK-4-279 validates the splicing mechanism of EWS-FLI1, showing alternatively spliced gene patterns that significantly overlap with EWS-FLI1 reduction and WT human mesenchymal stem cells (hMSC). Exon array analysis of 75 ES patient samples shows similar isoform expression patterns to cell line models expressing EWS-FLI1, supporting the clinical relevance of our findings. These experiments establish systemic alternative splicing as an oncogenic process modulated by EWS-FLI1. EWS-FLI1 modulation of mRNA splicing may provide insight into the contribution of splicing toward oncogenesis, and, reciprocally, EWS-FLI1 interactions with splicing proteins may inform the splicing code.T he alternative splicing of mRNA expands the diversity of the human proteome through evolution and ontogeny (1, 2). Spliceosomal network interactions, including proteins that recognize splice enhancer and silencer regions, are critical for the regulation of alternative splicing leading to protein isoforms with disparate functionality (3). Alternative splicing provides both a method by which to categorize subsets of cancers and an avenue for more effective targeted treatments (4). However, the spliceosomal protein interaction networks that are specific to cancer have not been systematically defined; alternative splicing can also change protein-protein interactions within networks (5). A systems biology approach can be used to study the relationship between splicing and oncogenesis by using tumor models with chromosomal translocations whose expressed fusion proteins have putative roles in splicing (6, 7).Fusion proteins produced by chromosomal translocations in sarcomas often contain the amino-terminal portion of EWS and are classified as transcription factors due to the presence of a canonical carboxyl-terminal DNA-binding domain (6). EWS-FLI1 is a well-established ES oncoprotein and is re...

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Section: Yk-4-279 Alters Splicing Rather Than Direct Transcriptional mentioning

confidence: 99%

Oncogenic fusion protein EWS-FLI1 is a network hub that regulates alternative splicing

Selvanathan

Graham

Erkizan

et al. 2015

Proc. Natl. Acad. Sci. U.S.A.

118

135

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“…While Kalsotra et al ( 2008 ) reported that their levels do not change from PN1 to adult stages, Zhang et al ( 2009 ) and Ye et al ( 2013 ) demonstrated its downregulation in rat and mouse. A correlation between the PTB developmental downregulation and the developmental downregulation of apoptotic genes was demonstrated in mouse (Zhang et al 2009 ). Consistently, over-expression of PTB in adult CM induces the expression of pro-apoptotic proteins without affecting their transcript levels suggesting that PTB regulates translation of apoptotic genes.…”

Section: Ptb Proteinsmentioning

confidence: 85%

“…When PTB is re-expressed in CM, caspase activity is enhanced and ischemia triggers caspase-dependent DNA fragmentation. By contrast, in the absence of PTB differentiated CM show caspaseindependent DNA fragmentation (Zhang et al 2009 ). These results suggest that PTB proteins play important roles in CM maturation similarly to what has been shown in C2C12 myoblast and neuron differentiation (Boutz et al 2007a , b ;Makeyev et al 2007 ).…”

Section: Ptb Proteinsmentioning

confidence: 93%

“…Many predicted RBFOX1/2 targets encode neuromuscular proteins, which consistently were reported to be disrupted in muscular dystrophy and neurological, sensory, and cardiac diseases ( McKusick 1998 ;Zhang et al 2009 ). Zhang et al found that those targets are more likely to be disease-associated genes than what would be expected by chance (Zhang et al 2009 ). This evidence supports the idea that RBFOX proteins are important regulators of heart functions.…”

Section: Rbfox Proteinsmentioning

confidence: 98%

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RNA-Binding Proteins in Heart Development

Giudice

Cooper

2014

Advances in Experimental Medicine and Biology

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RNA-binding proteins (RBPs) are key players of posttranscriptional regulation occurring during normal tissue development. All tissues examined thus far have revealed the importance of RBPs in the regulation of complex networks involved in organ morphogenesis, maturation, and function. They are responsible for controlling tissue-specific gene expression by regulating alternative splicing, mRNA stability, translation, and poly-adenylation. The heart is the first organ form during embryonic development and is also the first to acquire functionality. Numerous remodeling processes take place during late cardiac development since fetal heart first adapts to birth and then undergoes a transition to adult functionality. This physiological remodeling involves transcriptional and posttranscriptional networks that are regulated by RBPs. Disruption of the normal regulatory networks has been shown to cause cardiomyopathy in humans and animal models. Here we review the complexity of late heart development and the current information regarding how RBPs control aspects of postnatal heart development. We also review how activities of RBPs are modulated adding complexity to the regulation of developmental networks.

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“…Ptb nucleotide sequence GCACAGTC CTGAAGATCAT was chosen for PTB-specific expression silencing using free RNAi design interfaces and has been validated previously [28]. Primers for small hairpin RNA interference (shRNA) were subcloned into the pLVTHM plasmid as described before [28]. pEIGW or pLVTHM constructs were transfected into HEK293T packing cell line and tittered as described previously [28].…”

Section: Ptb Overexpression and Knockdownmentioning

confidence: 99%

Translation of Myocyte Enhancer Factor-2 is induced by hypertrophic stimuli in cardiomyocytes through a Calcineurin-dependent pathway

Ye¹,

Cardona²,

Llovera³

et al. 2012

Journal of Molecular and Cellular Cardiology

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Polypyrimidine tract binding proteins (PTB) regulate the expression of apoptotic genes and susceptibility to caspase-dependent apoptosis in differentiating cardiomyocytes

Cited by 35 publications

References 31 publications

Oncogenic fusion protein EWS-FLI1 is a network hub that regulates alternative splicing

Oncogenic fusion protein EWS-FLI1 is a network hub that regulates alternative splicing

RNA-Binding Proteins in Heart Development

Translation of Myocyte Enhancer Factor-2 is induced by hypertrophic stimuli in cardiomyocytes through a Calcineurin-dependent pathway

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