An interplay between the p38 MAPK pathway and AUBPs regulates c-fos mRNA stability during mitogenic stimulation

Diego Chiappe, Tamara Tanos
Portland Press Ltd, 2015
Article

Résumé

Mitogen-activated protein kinase (MAPK) pathways constitute key regulatory elements linking extracellular stimuli to nuclear gene expression. Immediate-early responsive genes (IEGs) of the activator protein 1 (AP-1) family, such as fos, achieve peak expression levels shortly after cells are stimulated with growth factors and sharply decrease thereafter. Several AU-rich binding proteins (AUBPs), including HuR (Hu-antigen R, Elav-like protein 1, ELAVL1) and KSRP (far upstream element-binding protein 2, KHSRP) bind to a fos AU-rich element (ARE) present in the 3'-UTR (untranslated region) of fos mRNA regulating its stability by a still poorly defined mechanism. We show in the present study that, whereas HuR binds and stabilizes transcribed reporter mRNAs bearing the fos 3'-UTR, KSRP counteracts this effect. Furthermore, we found that fos mRNA stability and HuR phosphorylation status are dependent on the activity of p38 MAPK in both epithelial cells and fibroblasts upon proliferative stimulation. Analysing PPI (protein-protein interaction) networks, we performed a thorough query of interacting proteins for p38 MAPKs, HuR and other AUBPs upon growth factor stimulation. This revealed novel HuR interactors including inhibitors of protein phosphatase 2 (PP2A) activity. Over-expression of two of these interactors, pp32 and APRIL (acidic leucine-rich nuclear phosphoprotein 32 family member B, ANP32B) and pharmacological inhibition of PP2A stabilized a fos reporter mRNA. Our results indicate that p38 MAPK regulates fos mRNA decay by affecting the state of phosphorylation of HuR while controlling yet to be fully elucidated PP regulatory networks.

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https://infoscience.epfl.ch/record/208280?ln=fr

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Diego Chiappe, Tamara Tanos
Portland Press Ltd, 2015
Article

Résumé

Official source

https://infoscience.epfl.ch/record/208280?ln=fr

À propos de ce résultat

Concepts associés (16)

vignette|350px|Types d'épithéliums. Les épithéliums sont des tissus constitués de cellules étroitement juxtaposées (ou jointives), sans interposition de fibres ou de substance fondamentale (en micros

thumb|chaîne latérale de sérine phosphorylée. Les atomes d'oxygène sont en rouge, ceux de phosphore, en orange, le carbone en gris et l'azote en bleu. Les atomes d'hydrogène ne sont pas représentés.

L'expression des gènes, encore appelée expression génique ou expression génétique, désigne l'ensemble des processus biochimiques par lesquels l'information héréditaire stockée dans un gène est lue po

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KAP1 controls endogenous retroviruses in embryonic stem cells

Daniel Constam, Johan Jakobsson, Hillary Layard-Liesching, Pierre Maillard, Séverine Reynard, Jacques Rougemont, Helen Mary Rowe, Didier Trono, Sonia Verp

More than forty per cent of the mammalian genome is derived from retroelements, of which about one-quarter are endogenous retroviruses (ERVs). Some are still active, notably in mice the highly polymorphic early transposon (ETn)/MusD and intracisternal A-type particles (IAP). ERVs are transcriptionally silenced during early embryogenesis by histone and DNA methylation (and reviewed in ref. 7), although the initiators of this process, which is essential to protect genome integrity, remain largely unknown. KAP1 (KRAB-associated protein 1, also known as tripartite motif-containing protein 28, TRIM28) represses genes by recruiting the histone methyltransferase SETDB1, heterochromatin protein 1 (HP1) and the NuRD histone deacetylase complex, but few of its physiological targets are known. Two lines of evidence suggest that KAP1-mediated repression could contribute to the control of ERVs: first, KAP1 can trigger permanent gene silencing during early embryogenesis, and second, a KAP1 complex silences the retrovirus murine leukaemia virus in embryonic cells. Consistent with this hypothesis, here we show that KAP1 deletion leads to a marked upregulation of a range of ERVs, in particular IAP elements, in mouse embryonic stem (ES) cells and in early embryos. We further demonstrate that KAP1 acts synergistically with DNA methylation to silence IAP elements, and that it is enriched at the 5' untranslated region (5'UTR) of IAP genomes, where KAP1 deletion leads to the loss of histone 3 lysine 9 trimethylation (H3K9me3), a hallmark of KAP1-mediated repression. Correspondingly, IAP 5'UTR sequences can impose in cis KAP1-dependent repression on a heterologous promoter in ES cells. Our results establish that KAP1 controls endogenous retroelements during early embryonic development.

Nature Publishing Group2010

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Transient gene expression (TGE) is a rapid method for generating recombinant proteins in mammalian cells, but the volumetric productivities for secreted proteins in transiently transfected CHO DG44 cells are typically more than an order of magnitude lower than the yields achieved with recombinant CHO-derived cell lines. The goals of the thesis are to identify the limitations to higher TGE yields in CHO DG44 cells and to find possible solutions to overcome the problems. Initially an attempt was made to enhance TGE production by increasing the amount of transfected plasmid DNA. However, this approach did not result in increased recombinant protein levels; on the contrary, transfection with an excess of plasmid DNA (> 1.25 μg/ml) had a negative impact on transgene mRNA levels and protein production. Moreover, it was also observed that recombinant protein yield was strongly dependent on the mRNA level. Therefore, three strategies aimed at increasing the amount of transgene mRNA were investigated. For the first approach, transfected cells were exposed to hypothermic conditions during the production phase. It was already known that lower temperatures increase protein production several fold in recombinant CHO DG44-derived cell lines. The second strategy involved the treatment of transfected cells with valproic acid, a histone deacetylase inhibitor that reduces the effects of gene silencing. The third approach aimed to increase transgene mRNA levels by overexpressing transcription factors and growth factors. With the first two strategies recombinant antibody yields of 60-80 mg/L were achieved whereas the untreated control transfections produced only 5-10 mg/L. Combination of the two strategies led to the production of 90 mg/L of antibody. Moreover, in the treated cultures, the steady-state level of transgene mRNA was 3-5 times higher than in the untreated cultures and remained stable up to 6 days post-transfection. Using the third approach, the increase in recombinant protein production was moderate and transgene mRNA amounts were only 2-fold higher in treated samples compared to the control. When specific proteins such as c-fos, c-jun, NF-kB, and acidic fibroblast growth factor (aFGF) were overexpressed the recombinant antibody production was 20 mg/L compared to 5 mg/L for the control transfection. Overexpression of either a transcription factor or a growth factor in combination with treatment with valproic acid allowed the recombinant protein yield to reach 90 mg/L. However, the benefit of the overexpressed factors was minimal compared to the effect of valproic acid alone. In conclusion, it was demonstrated that the level and stability of transgene mRNA are important factors for increasing volumetric yields in transiently transfected CHO DG44 cells. Furthermore, three approaches aimed to increase mRNA amounts were tested. Exposure to hypothermic conditions and treatment with valproic acid were the two best strategies tested. Both are simple, cost-effective, and scalable making transient gene expression in CHO DG44 cells a feasible alternative for rapid production of gram amounts of recombinant protein.

EPFL2009

Chargement

Role of RIP4 in lung adenocarcinoma differentiation

Jawahar Kopparam

Various studies have attributed NF-kB activation to promote KRAS mediated non-small cell lung cancer progression. In order to identify key genes regulating NF-kB activation and cell survival in lung adenocarcinoma, a synthetic lethal partner screen for KRAS was conducted in cell lines expressing mutant or wildtype KRAS. This screen identified an important role of Receptor-interacting serine/threonine protein kinase 4 (RIP4) in KRAS mediated oncogenesis. But altering RIP4 expression did not affect the viability of KRAS mutant cells, however a novel role of RIP4 in maintaining tumor differentiation was observed. Loss of epithelial differentiation and extracellular matrix remodeling are known to facilitate cancer progression and are associated with poor prognosis in patients with lung cancer. Bioinformatics analyses of human lung adenocarcinoma samples showed that poorly differentiated tumors express low levels of RIP4, whereas high levels are associated with better overall survival. Interleukin 6 (IL6) signaling is activated in lung adenocarcinoma expressing oncogenic KRAS and contributes to cancer invasiveness. Knockdown of RIP4 using shRNA in vitro enhanced activation of IL-6 signaling and also the ability of the cells to invade through collagen. In contrast, overexpression of RIP4 inhibited IL6-mediated Signal Transducer and activator of Transcription 3 (STAT3) activation, which abrogated IL6-dependent induction of lysyl oxidase, a collagen cross-linking enzyme. Tumor-specific Rip4 knockdown in an autochthonous mouse model of lung adenocarcinoma initiated by Kras(G12D) expression with loss of p53, progressed to a poorly differentiated state marked by an increase in Hmga2, reduced Ttf1 and enrichment of genes regulating extracellular matrix (ECM) remodeling and JAK-STAT signaling. Activated STAT3 can enhance NF-kB activation by interacting with NF-kB and promoting its nuclear retention. Tumors with RIP4 knockdown also exhibited enhanced STAT3- NF-kB interaction suggesting a cross talk between the two pathways. Tail vein injections of cells overexpressing RIP4 showed a reduced potential to invade and form tumors. Analysis of factors regulating RIP4 expression revealed that RIP4 is induced in a p53 dependent manner in response to chemotherapy. Altering the induced RIP4 levels in vitro had a modest effect on chemotherapy induced cell death. Our work has identified that loss of RIP4 enhances IL6 signaling in lung cancer cells, promoting the expression of ECM remodeling genes and cancer dedifferentiation.

EPFL2016

Chargement

Role of RIP4 in lung adenocarcinoma differentiation

Jawahar Kopparam

EPFL2016

EPFL2009

KAP1 controls endogenous retroviruses in embryonic stem cells

Daniel Constam, Johan Jakobsson, Hillary Layard-Liesching, Pierre Maillard, Séverine Reynard, Jacques Rougemont, Helen Mary Rowe, Didier Trono, Sonia Verp

Nature Publishing Group2010