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Cédric Hesling,
Jonathan Lopez,
Laurent Fattet,
Philippe Gonzalo,
Isabelle Treilleux,
Daphné Blanchard,
Régine Losson,
Vincent Goffin,
Natascha Pigat, Alain Puisieux,
Ivan Mikaelian,
Germain Gillet,
Ruth Rimokh
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ABSTRACT: Transforming growth factor β (TGFβ) is widely recognised as an important factor that regulates many steps of normal mammary gland (MG) development, including branching morphogenesis, functional differentiation and involution. Tif1γ has previously been reported to temporally and spatially control TGFβ signalling during early vertebrate development by exerting negative effects over SMAD4 availability. To evaluate the contribution of Tif1 γ to MG development, we developed a Cre/LoxP system to specifically invalidate the Tif1g gene in mammary epithelial cells in vivo. Tif1g-null mammary gland development appeared to be normal and no defects were observed during the lifespan of virgin mice. However, a lactation defect was observed in mammary glands of Tif1g-null mice. We demonstrate that Tif1 γ is essential for the terminal differentiation of alveolar epithelial cells at the end of pregnancy and to ensure lactation. Tif1 γ appears to play a crucial role in the crosstalk between TGFβ and prolactin pathways by negatively regulating both PRL receptor expression and STAT5 phosphorylation, thereby impairing the subsequent transactivation of PRL target genes. Using HC11 cells as a model, we demonstrate that the effects of Tif1g knockdown on lactation depend on both SMAD4 and TGFβ. Interestingly, we found that the Tif1γ expression pattern in mammary epithelial cells is almost symmetrically opposite to that described for TGFβ. We propose that Tif1γ contributes to the repression of TGFβ activity during late pregnancy and prevents lactation by inhibiting SMAD4.
Development 11/2012; · 6.60 Impact Factor
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Vanja Sisirak,
Julien Faget,
Michael Gobert,
Nadège Goutagny,
Nelly Vey,
Isabelle Treilleux,
Sarah Renaudineau,
Gaelle Poyet,
Sana Intidhar Labidi-Galy,
Sophie Goddard-Leon,
Isabelle Durand,
Isabelle Le Mercier,
Agathe Bajard,
Thomas Bachelot, Alain Puisieux,
Isabelle Puisieux,
Jean-Yves Blay,
Christine Ménétrier-Caux,
Christophe Caux,
Nathalie Bendriss-Vermare
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ABSTRACT: Infiltration and dysfunction of immune cells have been documented in many types of cancers. We previously reported that plasmacytoid dendritic cells (pDC) within primary breast tumors correlate with an unfavorable prognosis for patients. The role of pDC in cancer remains unclear but they have been shown to mediate immune tolerance in other pathophysiologic contexts. We postulated that pDC may interfere with antitumor immune response and favor tolerance in breast cancer. The present study was designed to decipher the mechanistic basis for the deleterious impact of pDC on the clinical outcome. Using fresh human breast tumor biopsies (N = 60 patients), we observed through multiparametric flow cytometry increased tumor-associated (TA) pDC (TApDC) rates in aggressive breast tumors, i.e., those with high mitotic index and the so-called triple-negative breast tumors (TNBT). Furthermore, TApDC expressed a partially activated phenotype and produced very low amounts of IFN-α following toll-like receptor activation in vitro compared with patients' blood pDC. Within breast tumors, TApDC colocalized and strongly correlated with TA regulatory T cells (TATreg), especially in TNBT. Of most importance, the selective suppression of IFN-α production endowed TApDC with the unique capacity to sustain FoxP3(+) Treg expansion, a capacity that was reverted by the addition of exogenous IFN-α. These findings indicate that IFN-α-deficient TApDC accumulating in aggressive tumors are involved in the expansion of TATreg in vivo, contributing to tumor immune tolerance and poor clinical outcome. Thus, targeting pDC to restore their IFN-α production may represent an attractive therapeutic strategy to overcome immune tolerance in breast cancer. Cancer Res; 72(20); 5188-97. ©2012 AACR.
Cancer Research 07/2012; 72(20):5188-97. · 7.86 Impact Factor
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Anne-Pierre Morel,
George W Hinkal,
Clémence Thomas,
Frédérique Fauvet,
Stéphanie Courtois-Cox,
Anne Wierinckx,
Mojgan Devouassoux-Shisheboran,
Isabelle Treilleux,
Agnès Tissier,
Baptiste Gras,
Julie Pourchet,
Isabelle Puisieux,
Gareth J Browne,
Douglas B Spicer,
Joël Lachuer,
Stéphane Ansieau, Alain Puisieux
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ABSTRACT: The epithelial-mesenchymal transition (EMT) is an embryonic transdifferentiation process consisting of conversion of polarized epithelial cells to motile mesenchymal ones. EMT-inducing transcription factors are aberrantly expressed in multiple tumor types and are known to favor the metastatic dissemination process. Supporting oncogenic activity within primary lesions, the TWIST and ZEB proteins can prevent cells from undergoing oncogene-induced senescence and apoptosis by abolishing both p53- and RB-dependent pathways. Here we show that they also downregulate PP2A phosphatase activity and efficiently cooperate with an oncogenic version of H-RAS in malignant transformation of human mammary epithelial cells. Thus, by down-regulating crucial tumor suppressor functions, EMT inducers make cells particularly prone to malignant conversion. Importantly, by analyzing transformed cells generated in vitro and by characterizing novel transgenic mouse models, we further demonstrate that cooperation between an EMT inducer and an active form of RAS is sufficient to trigger transformation of mammary epithelial cells into malignant cells exhibiting all the characteristic features of claudin-low tumors, including low expression of tight and adherens junction genes, EMT traits, and stem cell-like characteristics. Claudin-low tumors are believed to be the most primitive breast malignancies, having arisen through transformation of an early epithelial precursor with inherent stemness properties and metaplastic features. Challenging this prevailing view, we propose that these aggressive tumors arise from cells committed to luminal differentiation, through a process driven by EMT inducers and combining malignant transformation and transdifferentiation.
PLoS Genetics 05/2012; 8(5):e1002723. · 8.69 Impact Factor
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ABSTRACT: The epithelial to mesenchymal transition (EMT) is a latent embryonic process which can be aberrantly reactivated during tumor progression. It is generally viewed as one of the main forces driving metastatic dissemination, by providing cells with invasive and motility capabilities. The aberrant reactivation of embryonic EMT inducers has now been additionally linked to escape from senescence and apoptosis, which suggests a role in tumor initiation. This oncogenic potential relies on the ability of EMT inducers to neutralize both the RB and p53 oncosuppressive pathways. RB and p53 have recently been described as key factors in the maintenance of epithelial morphology, which suggests an unexpected and intimate crosstalk between EMT and the corresponding safety programs. In this review, we attempt to understand how these two cell processes are interlinked and might facilitate cell transformation and tumor initiation.
Seminars in Cancer Biology 12/2011; 21(6):392-6. · 6.47 Impact Factor
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Vanja Sisirak,
Nelly Vey,
Béatrice Vanbervliet,
Thomas Duhen,
Isabelle Puisieux,
Bernhard Homey,
Edward P Bowman,
Giorgio Trinchieri,
Bertrand Dubois,
Dominique Kaiserlian,
Sergio A Lira, Alain Puisieux,
Jean-Yves Blay,
Christophe Caux,
Nathalie Bendriss-Vermare
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ABSTRACT: Absent in peripheral tissues during homeostasis, human plasmacytoid dendritic cells (pDCs) are described in inflamed skin or mucosa. Here, we report that, unlike blood pDCs, a subset of tonsil pDCs express functional CCR6 and CCR10, and their respective ligands CCL20 and CCL27are detected in inflamed epithelia contacting blood dendritic cell antigen 2(+) pDCs. Moreover, pDCs are recruited to imiquimod-treated skin tumors in WT but not CCR6-deficient mice, and competitive adoptive transfers reveal that CCR6-deficient pDCs are impaired in homing to inflamed skin tumors after intravenous transfer. On IL-3 culture, CCR6 and CCR10 expression is induced on human blood pDCs that become responsive to CCL20 and CCL27/CCL28, respectively. Interestingly, unlike myeloid DC, blood pDCs initially up-regulate CCR7 expression and CCL19 responsiveness on IL-3 ± CpG-B and then acquire functional CCR6 and CCR10. Finally, IL-3-differentiated CCR6(+) CCR10(+) pDCs secrete high levels of IFN-α in response to virus. Overall, we propose an unexpected pDCs migratory model that may best apply for mucosal-associated lymphoid tissues. After CCR7-mediated extravasation into lymphoid tissues draining inflamed epithelia, blood pDCs may be instructed to up-regulate CCR6 and/or CCR10 allowing their homing into inflamed epithelia (in mucosae or skin). At this site, pDCs can then produce IFN-α contributing to pathogen clearance and/or local inflammation.
Blood 09/2011; 118(19):5130-40. · 9.90 Impact Factor
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Marie-May Coissieux,
Jerneja Tomsic,
Marie Castets,
Heather Hampel,
Sari Tuupanen,
Nadine Andrieu,
Ilene Comeras,
Youenn Drouet,
Christine Lasset,
Sandya Liyanarachchi,
Laetitia Mazelin, Alain Puisieux,
Jean-Christophe Saurin,
Jean-Yves Scoazec,
Qing Wang,
Lauri Aaltonen,
Stephan M Tanner,
Albert de la Chapelle,
Agnès Bernet,
Patrick Mehlen
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ABSTRACT: Expression of the netrin-1 dependence receptor UNC5C is reduced in many colorectal tumors; mice with the UNC5C mutations have increased progression of intestinal tumors. We investigated whether specific variants in UNC5C increase risk of colorectal cancer (CRC).
We analyzed the sequence of UNC5C in blood samples from 1801 patients with CRC and 4152 controls from 3 cohorts (France, United States, and Finland). Almost all cases from France and the United States had familial CRC; of the Finnish cases, 92 of 984 were familial. We analyzed whether CRC segregates with the UNC5C variant A628K in 3 families with histories of CRC. We also performed haplotype analysis to determine the origin of this variant.
Of 817 patients with familial CRC, 14 had 1 of 4 different, unreported missense variants in UNC5C. The variants p.Asp353Asn (encodes D353N), p.Arg603Cys (encodes R603C), and p.Gln630Glu (encodes Q630E) did not occur significantly more often in cases than controls. The variant p.Ala628Lys (A628K) was detected in 3 families in the French cohort (odds ratio, 8.8; Wald's 95% confidence interval, 1.47-52.93; P = .03) and in 2 families in the US cohort (odds ratio, 1.9; P = .6) but was not detected in the Finnish cohort; UNC5C A628K segregated with CRC in families. Three families with A628K had a 109-kilobase identical haplotype that spanned most of UNC5C, indicating recent origin of this variant in white subjects (14 generations; 95% confidence interval, 6-36 generations). Transfection of HEK293T cells with UNC5C-A628K significantly reduced apoptosis compared with wild-type UNC5C, measured in an assay of active caspase-3.
Inherited mutations in UNC5C prevent apoptosis and increase risk of CRC.
Gastroenterology 09/2011; 141(6):2039-46. · 11.68 Impact Factor
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ABSTRACT: Numerous works have questioned the pertinence of using βII- and/or βIII-tubulin expression as markers of prognosis and/or prediction of breast cancer response to chemotherapy containing microtubule-targeting agents. The rationale of such studies was essentially based on microtubule dynamics analysis using purified tubulin in vitro and cancer cell lines. Nonetheless, the significance of βII- and βIII-tubulin expression in the control of microtubule dynamics in normal mammary epithelium has never been addressed. Here we investigate the expression and the consequences of βII- and/or βIII-tubulin depletion in interphase microtubule dynamics in non-tumor human mammary epithelial cells. We find that both isoforms contribute to the tubulin isotype composition in primary and immortalized human mammary epithelial cells. Moreover, while βII-tubulin depletion has limited effects on interphase microtubule behavior, βIII-tubulin depletion causes a strong exclusion of microtubules from lamella and a severe suppression of dynamic instability. These results demonstrate that, while βII-tubulin is dispensable, βIII-tubulin is required for interphase microtubule dynamics in untransformed mammary epithelial cells. This strongly suggests that βIII-tubulin is an essential regulator of interphase microtubule functions in normal breast epithelium cells.
European journal of cell biology 08/2011; 90(10):872-8. · 3.31 Impact Factor
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ABSTRACT: Despite its frequent inactivation in human breast cancers, the role of p21(Cip1) (p21) in morphological plasticity of normal mammary epithelial cells is still poorly understood. To address this question, we have investigated the consequences of p21 silencing in two-dimensional (2D) morphogenesis of untransformed human mammary epithelial cells. Here we show that p21 inactivation causes a reduction of 2D cell spreading and suppresses focal adhesion. In order to investigate the cytoskeletal modifications associated with this altered morphology, we have analyzed the microtubule dynamics in interphase p21-depleted cells. Our results demonstrate that interphase microtubule dynamic instability is strongly increased by p21 silencing. This alteration correlates with severe microtubule hypoacetylation. Next, we show that these microtubule defects in p21-depleted cells can be reversed by the use of the small molecule tubacin, a specific inhibitor of the α-tubulin deacetylase HDAC6. Tubacin-induced microtubule dynamics decrease also correlates with a partial recovery of cell spreading and focal adhesion in those cells. Collectively, these data indicate that p21 regulates the morphological plasticity of normal mammary epithelial cells by modulating dynamics of key cytoskeletal components.
European journal of cell biology 08/2011; 90(8):631-41. · 3.31 Impact Factor
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ABSTRACT: Retrospective studies have demonstrated the prognostic impact of genomic profiles in neuroblastoma (NB). Segmental chromosome alterations have been found useful for identifying tumors with a high risk of relapse. As the gain of chromosome arm 17q is the most frequent chromosome alteration reported in NB primary tumors, we evaluated the presence of this 17q gain in the peripheral blood of patients with NB.
Using duplex quantitative real-time PCR, we quantified simultaneously MPO (17q.23.1) and a reference gene, p53, and Survivin (17q25) and p53. MPO and Survivin copy numbers were evaluated as MPO/p53 and Survivin/p53 ratios in 142 serum or plasma samples in which 17q status had been determined by array-based comparative genomic hybridization (aCGH) or multiplex ligation-dependent probe amplification (MLPA).
In patients <18 months of age, serum-based determination of 17q gain in DNA sequences had good specificity (94.4%) and 58.8% sensitivity (P < 0.001). In contrast, for patients over 18 months of age, the approach exhibited moderate specificity (71.4%) and 51.2% sensitivity (P = ns). Similar results were observed in patients with tumors without MYCN amplification.
Our results show that 17q gain determination in circulating DNA is possible and suggest that this non-invasive test could be useful for very young children when no reliable information on genomic alterations is obtained by aCGH or MPLA analysis of tumor samples This test is complementary to previously developed techniques for detecting circulating MYCN DNA sequences.
Pediatric Blood & Cancer 05/2011; 56(5):757-61. · 1.89 Impact Factor
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ABSTRACT: Understanding how cancer genes are mutated in individual tumors is an important issue with potential clinical and therapeutic impact. This is especially relevant with recently developed targeted therapies since mutated genes can be targets and/or predictors. However, to date, gene mutation profiling in individual tumors is still underexplored. Breast cancer is composed of various subtypes. We presumed that this heterogeneity reflected the involvement of different molecular mechanisms including gene mutations that affect defined signaling pathways. Unlike the majority of published mutational studies, this study was aimed to draw a mutation profile in individual tumors by screening a panel of cancer genes in the same tumor. Thus, five genes frequently mutated in breast cancers: TP53, PIK3CA, PTEN, CDH1, and AKT1 were screened in each of 120 human primary breast tumors. Mutations in at least one of these genes were found in 62.5% of the tumors, of which the majority carried a single-gene mutation. Interestingly, a substantial proportion of tumors carried mutations either in TP53 or in genes of the PI3K pathway (PIK3CA or PTEN or AKT1). These two distinct mutation patterns were significantly associated to hormone receptor expression but independent of HER2 status.
Breast Cancer Research and Treatment 04/2011; 132(1):29-39. · 4.43 Impact Factor
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ABSTRACT: Growing evidence supports the existence of a subpopulation of cancer cells with stem cell characteristics within breast tumors. In spite of its potential clinical implications, an understanding of the mechanisms responsible for retaining the stem cell characteristics in these cells is still lacking. Here, we used the mammosphere model combined with DNA methylation bead arrays and quantitative gene expression to characterize the epigenetic mechanisms involved in the regulation of developmental pathways in putative breast cancer stem cells. Our results revealed that MCF7-derived mammospheres exhibit distinct CpG promoter methylation profiles in a specific set of genes, including those involved in Jak-STAT signaling pathway. Hypomethylation of several gene components of the Jak-STAT pathway was correlated with an increased expression in mammospheres relative to parental cells. Remarkably, cell sorting of the cells with a putative cancer stem cell phenotype (CD44+/CD24 low) suggests a constitutive activation of Jak-STAT pathway in these cells. These results show that Jak-STAT activation may represent a characteristic of putative breast cancer stem cells. In addition, they favor the concept that the expression of cancer stem-like pathways and the establishment and maintenance of defining properties of cancer stem cells are orchestrated by epigenetic mechanisms.
Epigenetics: official journal of the DNA Methylation Society 04/2011; 6(4):428-39. · 4.58 Impact Factor
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03/2011; , ISBN: 978-953-307-225-8
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Jessie Auclair,
Thomas Vaissière,
Françoise Desseigne,
Christine Lasset,
Valérie Bonadona,
Sophie Giraud,
Jean-Christophe Saurin,
Marie-Odile Joly,
Dominique Leroux,
Laurence Faivre,
Carole Audoynaud,
Gilles Montmain,
Eric Ruano,
Zdenko Herceg, Alain Puisieux,
Qing Wang
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ABSTRACT: Constitutional epimutation is one of the causes for MLH1 gene inactivation associated with hereditary non-polyposis colon cancer (HNPCC) syndrome. Here we investigate MLH1 promoter hypermethylation in 110 sporadic early-onset colorectal cancer patients. Variable levels of hypermethylation were detected in 55 patients (50%). Importantly a reduced MLH1 gene expression was found in patients with high-level methylation, with the association of microsatellite instability (MSI) in their tumor cells. Such high-level methylation accounts for 7.4% of all patients included in this study. Furthermore, we found that in one case constitutional methylation affected both alleles, indicating a post-zygotic methylation dysregulation. Our findings suggest that constitutional epimutation is a mechanism underlying early-onset colorectal cancer, although it is involved in only a small proportion of patients, who require appropriate surveillance. Our findings provide further insight into the role of aberrant constitutional methylation in colon carcinogenesis and raise the question of whether prevalent low-level methylation constitutes a potential risk factor for cancer development.
Genes Chromosomes and Cancer 03/2011; 50(3):178-85. · 3.31 Impact Factor
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Erika Cosset,
Ghassan Hamdan,
Sandrine Jeanpierre,
Thibault Voeltzel,
Karen Sagorny,
Sandrine Hayette,
François-Xavier Mahon,
Charles Dumontet, Alain Puisieux,
Franck E Nicolini,
Véronique Maguer-Satta
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ABSTRACT: The mechanisms of resistance to tyrosine kinase inhibitors (TKIs) in chronic myeloid leukemia (CML) often remain obscure. Analysis of patient samples during disease progression revealed the up-regulation of the oncogene TWIST-1, also measured in primary samples from TKI-resistant patients. Moreover, we found that TWIST-1 was overexpressed in CML diagnostic samples of patients who later developed cytogenetic resistance to imatinib, even those without any detectable resistance mechanism. We confirmed the up-regulation of TWIST-1 at both RNA and protein levels in imatinib-resistant cell lines, irrespective of any other resistance mechanism. Analysis with specific small interfering RNA suggested TWIST-1 involvement in the resistance phenotype. Finally, the kinetics of TWIST-1 expression during the individual medical histories of CML patients indicated that TWIST-1 expression is down-regulated by TKIs and up-regulated with TKI resistance. We hypothesize that the overexpression of the TWIST-1 oncogene represents a novel key prognostic factor potentially useful for optimizing CML management in the TKI era.
Blood 02/2011; 117(5):1673-6. · 9.90 Impact Factor
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ABSTRACT: Tumor development is usually described as the result of successive waves of genetic and epigenetic changes and of Darwinian selections that allow the progressive emergence of cells with proliferation and survival advantages. According to this model of tumoral progression, the acquisition of metastatic properties is perceived as a late stage-induced response to environmentally damaging conditions in the tumor, in particular oxygen and nutriment lack. Analyzing the consequences linked to the reactivation of embryonic programmes leads, for some cancer types, to question the linearity of this model, by showing that the dissemination of cancerous or precancerous cells may begin as early as the lesions convert from a premalignant to a malignant state. We propose to review the main findings that brought about these conclusions and to discuss what consequences they might have.
Biologie aujourd'hui. 01/2011; 205(1):47-52.
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ABSTRACT: The major components of the mammary ductal tree are an inner layer of luminal cells, an outer layer of myoepithelial cells, and a basement membrane that separates the ducts from the underlying stroma. Cells in the outer layer express CD10, a zinc-dependent metalloprotease that regulates the growth of the ductal tree during mammary gland development. To define the steps in the human mammary lineage at which CD10 acts, we have developed an in vitro assay for human mammary lineage progression. We show that sorting for CD10 and EpCAM cleanly separates progenitors from differentiated luminal cells and that the CD10-high EpCAM-low population is enriched for early common progenitor and mammosphere-forming cells. We also show that sorting for CD10 enriches sphere-forming cells from other tissue types, suggesting that it may provide a simple tool to identify stem or progenitor populations in tissues for which lineage studies are not currently possible. We demonstrate that the protease activity of CD10 and the adhesion function of beta1-integrin are required to prevent differentiation of mammary progenitors. Taken together, our data suggest that integrin-mediated contact with the basement membrane and cleavage of signaling factors by CD10 are key elements in the niche that maintains the progenitor and stem cell pools in the mammary lineage.
Stem Cells 06/2010; 28(6):1081-8. · 7.78 Impact Factor
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ABSTRACT: The SNAIL and SLUG transcription factors play important roles in embryogenesis owing to their anti-apoptotic properties and their ability to promote morphogenetic changes by inducing epithelial-mesenchymal transitions (EMT). These characteristics provide many of the proteins in these families with oncogenic and pro-metastatic capabilities when reactivated in cancers. The SCRATCH subgroup of the SNAIL superfamily, including SCRATCH1 and SCRATCH2, display distinct embryonic functions and diverge early in evolution. Despite the described overexpression of SCRT1 (encoding for SCRATCH1) in a small subset of human lung cancers, there is little data supporting a role of SCRATCH proteins in tumorigenesis. To further explore this possibility, we assessed SNAI1 (SNAIL), SNAI2 (SLUG) and SCRT1 (SCRATCH1) expression in a wide panel of human and murine tumors encompassing 151 primary tumors and 6 different cancer types, including melanomas and multiple different carcinomas. Whereas SNAI1 and SNAI2 are widely expressed in human and murine tumors, our results reveal that SCRT1 transcripts are undetectable in nearly all of the examined tumors suggesting that SCRATCH1 plays a minor role, if any, in tumorigenesis. Our data therefore suggest that oncogenic properties are not shared by all SNAIL superfamily members but instead are specifically allotted to the SNAIL subgroup supporting the conclusions that SNAIL and SCRATCH subgroups are functionally divergent and strengthening the hypothesis that the oncogenic potential of SNAIL and SLUG proteins relies on the hijacking of their embryonic functions.
Oncology Reports 02/2010; 23(2):523-9. · 1.84 Impact Factor
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ABSTRACT: The MYCN gene is transcribed into two major mRNAs: one full-length (MYCN) and one exon 1b-spliced (MYCNDelta1b) mRNA. But nothing is known about their respective ability to translate the MYCN protein.
Plasmids were prepared to enable translation from the upstream (uORF) and major ORF of the two MYCN transcripts. Translation was studied after transfection in neuroblastoma SH-EP cell line. Impact of the upstream AUG on translation was evaluated after directed mutagenesis. Functional study with the two MYCN mRNAs was conducted by a cell viability assay. Existence of a new protein encoded by the MYCNDelta1b uORF was explored by designing a rabbit polyclonal antibody against a specific epitope of this protein.
Both are translated, but higher levels of protein were seen with MYCNDelta1b mRNA. An upstream ORF was shown to have positive cis-regulatory activity on translation from MYCN but not from MYCNDelta1b mRNA. In transfected SH-EP neuroblastoma cells, high MYCN dosage obtained with MYCNDelta1b mRNA translation induces an antiapoptotic effect after serum deprivation that was not observed with low MYCN expression obtained with MYCN mRNA. Here, we showed that MYCNOT: MYCN Overlap Transcript, a new protein of unknown function is translated from the upstream AUG of MYCNDelta1b mRNA.
Existence of upstream ORF in MYCN transcripts leads to a new level of MYCN regulation. The resulting MYCN dosage has a weak but significant anti-apoptotic activity after intrinsic apoptosis induction.
BMC Cancer 12/2009; 9:445. · 3.01 Impact Factor
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David F Vincent,
Kai-Ping Yan,
Isabelle Treilleux,
Fabien Gay,
Vanessa Arfi,
Bastien Kaniewski,
Julien C Marie,
Florian Lepinasse,
Sylvie Martel,
Sophie Goddard-Leon,
Juan L Iovanna,
Pierre Dubus,
Stéphane Garcia, Alain Puisieux,
Ruth Rimokh,
Nabeel Bardeesy,
Jean-Yves Scoazec,
Régine Losson,
Laurent Bartholin
PLoS Genetics 09/2009; 5(8). · 8.69 Impact Factor
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Agnès Doreau,
Alexandre Belot,
Jérémy Bastid,
Benjamin Riche,
Marie-Claude Trescol-Biemont,
Bruno Ranchin,
Nicole Fabien,
Pierre Cochat,
Claire Pouteil-Noble,
Pierre Trolliet,
Isabelle Durieu,
Jacques Tebib,
Berhouz Kassai,
Stéphane Ansieau, Alain Puisieux,
Jean-François Eliaou,
Nathalie Bonnefoy-Bérard
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ABSTRACT: Studies have suggested involvement of interleukin 17 (IL-17) in autoimmune diseases, although its effect on B cell biology has not been clearly established. Here we demonstrate that IL-17 alone or in combination with B cell-activating factor controlled the survival and proliferation of human B cells and their differentiation into immunoglobulin-secreting cells. This effect was mediated mainly through the nuclear factor-kappaB-regulated transcription factor Twist-1. In support of the relevance of our observations and the potential involvement of IL-17 in B cell biology, we found that the serum of patients with systemic lupus erythematosus had higher concentrations of IL-17 than did the serum of healthy people and that IL-17 abundance correlated with the disease severity of systemic lupus erythematosus.
Nature Immunology 08/2009; 10(7):778-85. · 26.01 Impact Factor
