p53 is activated in response to disruption of the pre-mRNA splicing machinery

Allende-Vega, Nerea; Dayal, S; Agarwala, Usha; Sparks, Alison; Bourdon, Jean-Christophe; Mk, Saville

doi:10.1038/onc.2012.38

Cited by 66 publications

(61 citation statements)

References 67 publications

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“…We recently reported that alteration of alternative splicing pathway activates p53, regulates p53-target gene expression and induces a p53-dependent G1 cell cycle arrest in HCT116 cells. 14 Here we determined whether combined knockdown of p53b and p53g by siP53-i9 affects MCF7 cell response to Figure 6). To exclude difference between siCT and siP53-i9-transfected cells due to variation in basal apoptosis, MTT assays were normalized at the day of TG003 addition ( Figure 6b).…”

Section: Resultsmentioning

confidence: 99%

“…However, the impact of TG003 on p53a protein is cell line-dependent, p53a expression being either increased or decreased, supporting a cell typedependent effect of TG003. 14 Early studies reported that p53b has some tumor suppressor-like activity in non-treated normal fibroblasts and cancer cells, p53b promoting apoptosis and senescence by differentially regulating gene expression. 3,6 Consistently, endogenous p53b and p53g expression promotes G1 cell cycle arrest and basal apoptosis in MCF7 cells.…”

Section: Discussionmentioning

confidence: 99%

“…Moreover, TG003 has been shown to modulate alternative splicing in vitro and in vivo, 12,13 and to activate p53 inducing a p53-mediated cell response. 14 Here we investigated the effects of TG003 and SFRS1 on splicing of TP53 intron 9 and characterized the biological consequences.…”

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confidence: 99%

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Modulation of p53β and p53γ expression by regulating the alternative splicing of TP53 gene modifies cellular response

et al. 2014

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In addition to the tumor suppressor p53 protein, also termed p53a, the TP53 gene produces p53b and p53c through alternative splicing of exons 9b and 9c located within TP53 intron 9. Here we report that both TG003, a specific inhibitor of Cdc2-like kinases (Clk) that regulates the alternative splicing pre-mRNA pathway, and knockdown of SFRS1 increase expression of endogenous p53b and p53c at mRNA and protein levels. Development of a TP53 intron 9 minigene shows that TG003 treatment and knockdown of SFRS1 promote inclusion of TP53 exons 9b/9c. In a series of 85 primary breast tumors, a significant association was observed between expression of SFRS1 and a variant, supporting our experimental data. Using siRNA specifically targeting exons 9b/9c, we demonstrate that cell growth can be driven by modulating p53b and p53c expression in an opposite manner, depending on the cellular context. In MCF7 cells, p53b and p53c promote apoptosis, thus inhibiting cell growth. By transient transfection, we show that p53b enhanced p53a transcriptional activity on the p21 and Bax promoters, while p53c increased p53a transcriptional activity on the Bax promoter only. Moreover, p53b and p53c co-immunoprecipitate with p53a only in the presence of p53-responsive promoter. Interestingly, although p53b and p53c promote apoptosis in MCF7 cells, p53b and p53c maintain cell growth in response to TG003 in a p53a-dependent manner. The dual activities of p53b and p53c isoforms observed in non-treated and TG003-treated cells may result from the impact of TG003 on both expression and activities of p53 isoforms. Overall, our data suggest that p53b and p53c regulate cellular response to modulation of alternative splicing pre-mRNA pathway by a small drug inhibitor. The development of novel drugs targeting alternative splicing process could be used as a novel therapeutic approach in human cancers. including C-terminal isoforms produced by alternative splicing of intron 9 3 (Figure 1a). Exclusion of the entire intron 9 generates the canonical full-length p53 protein (or p53a), a transcription factor activated in response to diverse intracellular and extracellular signals (Figure 1b). Hence, p53 regulates gene expression to modulate cell-fate outcome by regulating biological processes, including apoptosis and cell cycle progression.5 Inclusion of alternative exons 9b and 9g contained in intron 9 gives rise to p53b and p53g protein isoforms that present new residues in place of the usual oligomerization domain present in p53a. Early studies reported that p53b and p53g retain characteristics of a tumor suppressor. 4 Indeed, p53b modulates p53a transcriptional activity in a promoter-dependent manner in response to stress 3 and promotes apoptosis and senescence, indicating that p53b can modulate p53a suppressive activity. 3,6 The biological significance of p53b and p53g isoforms is emphasized by clinical data. Both p53b and p53g expression is lost in B60% of breast cancer tumors.3,7 Furthermore, breast cancer patients expressing both mutant p53 and p53g ha...

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Section: Resultsmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

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Modulation of p53β and p53γ expression by regulating the alternative splicing of TP53 gene modifies cellular response

et al. 2014

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“…Nuclear speckles are cellular bodies that contain transcription and pre-mRNA processing components (24). Knockdown of PB target SF3B1 causes a "mega-speckles" phenotype in which the speckles coalesce into large bodies (25). PB treatment of cells also induces formation of mega-speckles (8).…”

Section: Synthesis Of Pb Structuralmentioning

confidence: 99%

Coherence between Cellular Responses and in Vitro Splicing Inhibition for the Anti-tumor Drug Pladienolide B and Its Analogs

Effenberger

Anderson

Bray

et al. 2014

Journal of Biological Chemistry

104

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Background: Pladienolide B is a complex natural product that potently inhibits pre-mRNA splicing. Results: The same molecular features of pladienolide B are required for the drug's effects on cell growth, morphology, and splicing. Conclusion: Simplified synthesis and modification of active pladienolide B is possible. Significance: Pladienolide B analogs can be used to study the relationship between splicing and cancer cell function.

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“…We found altered expression of the regulators serine/arginine-rich splicing factor 3 (SRSF3), splicing factor 3A3 (SF3A3), heterogeneous nuclear ribonuclear proteins Q and A1, small nuclear ribonuclear proteins A′ and E, regulation of nuclear pre-mRNA domain-containing protein 2 (RPRD2), RNA-binding proteins 22, 4b, 39, 47, and MS, and the RNA helicase DHX30 (Table 1). Perturbation of the splicing machinery also can activate the p53 pathway (71,72).…”

Section: Functional Classes Of Proteins and Pathways Changed By Exposmentioning

confidence: 99%

Quantitative proteomic analyses of mammary organoids reveals distinct signatures after exposure to environmental chemicals

Williams

Lemieux

Hassis

et al. 2016

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

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Common environmental contaminants such as bisphenols and phthalates and persistent contaminants such as polychlorinated biphenyls are thought to influence tissue homeostasis and carcinogenesis by acting as disrupters of endocrine function. In this study we investigated the direct effects of exposure to bisphenol A (BPA), mono-n-butyl phthalate (Pht), and polychlorinated biphenyl 153 (PCB153) on the proteome of primary organotypic cultures of the mouse mammary gland. At low-nanomolar doses each of these agents induced distinct effects on the proteomes of these cultures. Although BPA treatment produced effects that were similar to those induced by estradiol, there were some notable differences, including a reduction in the abundance of retinoblastomaassociated protein and increases in the Rho GTPases Ras-related C3 botulinum toxin substrate 1 (Rac1) and cell division cycle protein CDC42. Both Pht and PCB153 induced changes that were distinct from those induced by estrogen, including decreased levels of the transcriptional corepressor C-terminal binding protein 1. Interestingly, the three chemicals appeared to alter the abundance of distinct splice forms of many proteins as well as the abundance of several proteins that regulate RNA splicing. Our combined results indicate that the three classes of chemical have distinct effects on the proteome of normal mouse mammary cultures, some estrogen-like but most estrogen independent, that influence diverse biological processes including apoptosis, cell adhesion, and proliferation.proteomics | mammary epithelium | environmental chemicals | organotypic culture | estrogen B reast cancers are caricatures of normal tissue development (1-3). The same underlying mechanisms that affect the cell processes needed for normal mammary development contribute to cancer progression. By affecting the distribution of interacting cells and communication among them through nontargeted effects, carcinogens can promote the outgrowth of altered cells with malignant potential. Exposure to environmental agents can affect mammary gland development and alter breast cancer risk. Epidemiologic studies have associated a number of environmental factors with increased breast cancer risk (4). Some of these factors may have low-level effects that are not genotoxic but alter immune responses, vascularity, or the microenvironment or that change susceptibility to carcinogens. A current weakness in models of cancer risk assessment is the lack of consideration of factors that influence the susceptibility of mixed cell populations to transformation. Indeed, ionizing radiation, the prototypical carcinogen, promotes changes in the biochemical properties in cultured mouse and human breast cells, in the stromal environment, and in intact mouse mammary gland (5-7).Physiologically relevant 3D culture models can recapitulate crucial aspects of the dynamic and reciprocal signaling necessary for establishing and maintaining tissue-specific morphogenetic programs. The determination of the molecular mechanisms underlying m...

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p53 is activated in response to disruption of the pre-mRNA splicing machinery

Cited by 66 publications

References 67 publications

Modulation of p53β and p53γ expression by regulating the alternative splicing of TP53 gene modifies cellular response

Modulation of p53β and p53γ expression by regulating the alternative splicing of TP53 gene modifies cellular response

Coherence between Cellular Responses and in Vitro Splicing Inhibition for the Anti-tumor Drug Pladienolide B and Its Analogs

Quantitative proteomic analyses of mammary organoids reveals distinct signatures after exposure to environmental chemicals

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