Your search keyword '"Puisieux, Alain"' showing total 17 results

1. Plakins are involved in the regulation of centrosome position in polarized epithelial cells.

Author

Geay, Juliana, Margaron, Yoran, Gentien, David, Reyal, Fabien, Puisieux, Alain, Blanchoin, Laurent, Guyon, Laurent, and Théry, Manuel

Subjects

EPITHELIAL cells, CELL polarity, CELL junctions, EPITHELIAL-mesenchymal transition, CANCER cells, BREAST

Abstract

Background Information: The control of epithelial cell polarity is key to their function. Its dysregulation is a major cause of tissue transformation. In polarized epithelial cells,the centrosome is off‐centred toward the apical pole. This asymmetry determines the main orientation of the microtubule network and intra‐cellular traffic. However, the mechanism regulating centrosome positioning at the apical pole of polarized epithelial cells is still poorly undertood. Results: In this study we used transcriptomic data from breast cancer cells to identify molecular changes associated with the different stages of tumour transformation. We correlated these changes with variations in centrosome position or with cell progression along the epithelial‐to‐mesenchymal transition (EMT), a process that involves centrosome repositioning. We found that low levels of epiplakin, desmoplakin and periplakin correlated with centrosome mispositioning in cells that had progressed through EMT or tissue transformation. We further tested the causal role of these plakins in the regulation of centrosome position by knocking down their expression in a non‐tumorigenic breast epithelial cell line (MCF10A). The downregulation of periplakin reduced the length of intercellular junction, which was not affected by the downregulation of epiplakin or desmoplakin. However, down‐regulating any of them disrupted centrosome polarisation towards the junction without affecting microtubule stability. Conclusions: Altogether, these results demonstrated that epiplakin, desmoplakin and periplakin are involved in the maintenance of the peripheral position of the centrosome close to inter‐cellular junctions. They also revealed that these plakins are downregulated during EMT and breast cancer progression, which are both associated with centrosome mispositioning. Significance: These results revealed that the down‐regulation of plakins and the consequential centrosome mispositioning are key signatures of disorganised cytoskeleton networks, inter‐cellular junction weakening, shape deregulation and the loss of polarity in breast cancer cells. These metrics could further be used as a new readouts for early phases of tumoral development. [ABSTRACT FROM AUTHOR]

Published

2024

2. PSL Chemical Biology Symposia: Recent Progress in Ferroptosis.

Author

Pereira, Arthur, Baron, Leeroy, Bucci, Romain, Plays, Marina, Bonasegale, Giulia, Picard–Bernes, Armel, Bibrowski, Manuel, Morris, Nolwenn, Marynberg, Sacha, Sindikubwabo, Fabien, Cañeque, Tatiana, Müller, Sebastian, Colombeau, Ludovic, Solier, Stéphanie, Bono, Yannick, Gaillet, Christine, Johannes, Ludger, Puisieux, Alain, and Rodriguez, Raphaël

Published

2024

3. EU‐LIFE charter of independent life science research institutes.

Author

Superti‐Furga, Giulio, Agostinho, Marta, Bury, Jo, Cook, Simon, Durinx, Christine, Ender, Anita, van Luenen, Henri, Lund, Anders H., Medema, René H., Miączyńska, Marta, Nickel, Dorthe, Pelicci, Pier Giuseppe, Puisieux, Alain, Ripatti, Samuli, Sander, Maike, Schubeler, Dirk, Serrano, Luis, Sommer, Thomas, Sonne‐Hansen, Katrine, and Tomančák, Pavel

Subjects

LIFE sciences, RESEARCH institutes, CONSCIOUSNESS raising, TECHNOLOGICAL innovations, CHARTERS

Abstract

The diverse range of organizations contributing to the global research ecosystem is believed to enhance the overall quality and resilience of its output. Mid‐sized autonomous research institutes, distinct from universities, play a crucial role in this landscape. They often lead the way in new research fields and experimental methods, including those in social and organizational domains, which are vital for driving innovation. The EU‐LIFE alliance was established with the goal of fostering excellence by developing and disseminating best practices among European biomedical research institutes. As directors of the 15 EU‐LIFE institutes, we have spent a decade comparing and refining our processes. Now, we are eager to share the insights we've gained. To this end, we have crafted this Charter, outlining 10 principles we deem essential for research institutes to flourish and achieve ground‐breaking discoveries. These principles, detailed in the Charter, encompass excellence, independence, training, internationality and inclusivity, mission focus, technological advancement, administrative innovation, cooperation, societal impact, and public engagement. Our aim is to inspire the establishment of new institutes that adhere to these principles and to raise awareness about their significance. We are convinced that they should be viewed a crucial component of any national and international innovation strategies. [ABSTRACT FROM AUTHOR]

Published

2024

4. PSL Chemical Biology Symposia Third Edition: A Branch of Science in its Explosive Phase.

Author

Baron, Leeroy, Hadjerci, Justine, Thoidingjam, Leishemba, Plays, Marina, Bucci, Romain, Morris, Nolwenn, Müller, Sebastian, Sindikubwabo, Fabien, Solier, Stéphanie, Cañeque, Tatiana, Colombeau, Ludovic, Blouin, Cedric M., Lamaze, Christophe, Puisieux, Alain, Bono, Yannick, Gaillet, Christine, Laraia, Luca, Vauzeilles, Boris, Taran, Frédéric, and Papot, Sébastien

Published

2023

5. Role of EMT in the DNA damage response, double‐strand break repair pathway choice and its implications in cancer treatment.

Author

Moyret‐Lalle, Caroline, Prodhomme, Mélanie K., Burlet, Delphine, Kashiwagi, Ayaka, Petrilli, Virginie, Puisieux, Alain, Seimiya, Hiroyuki, and Tissier, Agnès

Abstract

Numerous epithelial–mesenchymal transition (EMT) characteristics have now been demonstrated to participate in tumor development. Indeed, EMT is involved in invasion, acquisition of stem cell properties, and therapy‐associated resistance of cancer cells. Together, these mechanisms offer advantages in adapting to changes in the tumor microenvironment. However, recent findings have shown that EMT‐associated transcription factors (EMT‐TFs) may also be involved in DNA repair. A better understanding of the coordination between the DNA repair pathways and the role played by some EMT‐TFs in the DNA damage response (DDR) should pave the way for new treatments targeting tumor‐specific molecular vulnerabilities, which result in selective destruction of cancer cells. Here we review recent advances, providing novel insights into the role of EMT in the DDR and repair pathways, with a particular focus on the influence of EMT on cellular sensitivity to damage, as well as the implications of these relationships for improving the efficacy of cancer treatments. [ABSTRACT FROM AUTHOR]

Published

2022

6. Stiffness measurement is a biomarker of skin ageing in vivo.

Author

Runel, Gaël, Cario, Muriel, Lopez‐Ramirez, Noémie, Malbouyres, Marilyne, Ruggiero, Florence, Bernard, Laure, Puisieux, Alain, Caramel, Julie, Chlasta, Julien, and Masse, Ingrid

Subjects

SKIN aging, BIOMARKERS, ATOMIC force microscopy, TRANSMISSION electron microscopy, ORYZIAS latipes

Abstract

Human skin is particularly vulnerable to age‐related deterioration and undergoes profound structural and functional changes, reflected in the external skin appearance. Skin ageing is characterized by features such as wrinkling or loss of elasticity. Even if research advances have been done concerning the molecular mechanisms that underlie these changes, very few studies have been conducted concerning the structure stiffness of the skin organ as a whole. In this study, we showed, thanks to human skin reconstructs and the Japanese Medaka fish model, that biomechanics is a new biomarker of skin ageing. We revealed that global stiffness measurement by Atomic Force Microscopy, since modulated through ageing in these models, can be a new biomarker of skin ageing, and reflects the profound reorganization of the dermis extracellular matrix, as shown by Transmission Electron Microscopy. Moreover, our data unveiled that the Japanese Medaka fish could represent a highly relevant integrated model to study skin ageing in vivo. [ABSTRACT FROM AUTHOR]

Published

2020

7. Quantifying local malignant adaptation in tissue‐specific evolutionary trajectories by harnessing cancer's repeatability at the genetic level.

Author

Tokutomi, Natsuki, Moyret‐Lalle, Caroline, Puisieux, Alain, Sugano, Sumio, and Martinez, Pierre

Subjects

PRECANCEROUS conditions, STATISTICAL reliability, CANCER, PHYSIOLOGICAL adaptation, GENETICS

Abstract

Cancer is a potentially lethal disease, in which patients with nearly identical genetic backgrounds can develop a similar pathology through distinct combinations of genetic alterations. We aimed to reconstruct the evolutionary process underlying tumour initiation, using the combination of convergence and discrepancies observed across 2,742 cancer genomes from nine tumour types. We developed a framework using the repeatability of cancer development to score the local malignant adaptation (LMA) of genetic clones, as their potential to malignantly progress and invade their environment of origin. Using this framework, we found that premalignant skin and colorectal lesions appeared specifically adapted to their local environment, yet insufficiently for full cancerous transformation. We found that metastatic clones were more adapted to the site of origin than to the invaded tissue, suggesting that genetics may be more important for local progression than for the invasion of distant organs. In addition, we used network analyses to investigate evolutionary properties at the system‐level, highlighting that different dynamics of malignant progression can be modelled by such a framework in tumour‐type‐specific fashion. We find that occurrence‐based methods can be used to specifically recapitulate the process of cancer initiation and progression, as well as to evaluate the adaptation of genetic clones to given environments. The repeatability observed in the evolution of most tumour types could therefore be harnessed to better predict the trajectories likely to be taken by tumours and preneoplastic lesions in the future. [ABSTRACT FROM AUTHOR]

Published

2019

8. ZEB1-mediated melanoma cell plasticity enhances resistance to MAPK inhibitors.

Author

Richard, Geoffrey, Dalle, Stéphane, Monet, Marie‐Ambre, Ligier, Maud, Boespflug, Amélie, Pommier, Roxane M, Fouchardière, Arnaud, Perier‐Muzet, Marie, Depaepe, Lauriane, Barnault, Romain, Tondeur, Garance, Ansieau, Stéphane, Thomas, Emilie, Bertolotto, Corine, Ballotti, Robert, Mourah, Samia, Battistella, Maxime, Lebbé, Céleste, Thomas, Luc, and Puisieux, Alain

Abstract

Targeted therapies with MAPK inhibitors ( MAPKi) are faced with severe problems of resistance in BRAF-mutant melanoma. In parallel to the acquisition of genetic mutations, melanoma cells may also adapt to the drugs through phenotype switching. The ZEB1 transcription factor, a known inducer of EMT and invasiveness, is now considered as a genuine oncogenic factor required for tumor initiation, cancer cell plasticity, and drug resistance in carcinomas. Here, we show that high levels of ZEB1 expression are associated with inherent resistance to MAPKi in BRAF V 600-mutated cell lines and tumors. ZEB1 levels are also elevated in melanoma cells with acquired resistance and in biopsies from patients relapsing while under treatment. ZEB1 overexpression is sufficient to drive the emergence of resistance to MAPKi by promoting a reversible transition toward a MITFlow/p75high stem-like and tumorigenic phenotype. ZEB1 inhibition promotes cell differentiation, prevents tumorigenic growth in vivo, sensitizes naive melanoma cells to MAPKi, and induces cell death in resistant cells. Overall, our results demonstrate that ZEB1 is a major driver of melanoma cell plasticity, driving drug adaptation and phenotypic resistance to MAPKi. [ABSTRACT FROM AUTHOR]

Published

2016

9. Determination of 17q gain in patients with neuroblastoma by analysis of circulating DNA.

Author

Combaret, Valérie, Bréjon, Stéphanie, Iacono, Isabelle, Schleiermacher, Gudrun, Pierron, Gäelle, Ribeiro, Agnès, Bergeron, Christophe, Marabelle, Aurélien, and Puisieux, Alain

Published

2011

10. Intensity-dependent constitutional MLH1 promoter methylation leads to early onset of colorectal cancer by affecting both alleles.

Author

Auclair, Jessie, Vaissière, Thomas, Desseigne, Françoise, Lasset, Christine, Bonadona, Valérie, Giraud, Sophie, Saurin, Jean-Christophe, Joly, Marie-Odile, Leroux, Dominique, Faivre, Laurence, Audoynaud, Carole, Montmain, Gilles, Ruano, Eric, Herceg, Zdenko, Puisieux, Alain, and Wang, Qing

Published

2011

11. A p21/WAF1 mutation favors the appearance of drug resistance to paclitaxel in human noncancerous epithelial mammary cells.

Author

Galmarini, Carlos María, Bouchet, Benjamin Pierre, Audoynaud, Carole, Lamblot, Christelle, Falette, Nicole, Bertholon, Jacques, Wang, Qing, Beghin, Anne, Dumontet, Charles, and Puisieux, Alain

Abstract

We investigated the mechanisms responsible for paclitaxel resistance in HME-1 cells (human mammary epithelial cells immortalized with hTERT). These cells were exposed to paclitaxel (10 pM for 7 days) and 20 cellular surviving populations (PSP) were obtained. PSP demonstrated high levels of resistance to paclitaxel cytotoxicity as compared with HME-1 cells. Activation of mdr-1 gene expression was observed in 2 PSP. Protein expression analysis using a C-terminal targeted antibody showed that 13 PSP were negative for p21/WAF1 expression after ionizing radiation (6 Gy) or doxorubicin (100 nM) treatment. Sequencing of the 3 exons of the CDKN1A gene revealed that 13 PSP contained a point mutation in exon 2. This mutation consisted in a T insertion at codon 104 leading to a premature STOP codon appearance. Mismatch amplification mutation assay and RFLP-PCR confirmed the presence of the mutation in 16 PSP. Western blot using an N-terminal targeted antibody demonstrated that the C-terminal-truncated p21/WAF1 protein (14 kDa) was indeed expressed in the 13 PSP. Our data suggest that p21/WAF1 inactivation may confer a strong resistance to paclitaxel in noncancerous breast epithelial cells harboring a p21/WAF1 mutant. © 2006 Wiley-Liss, Inc. [ABSTRACT FROM AUTHOR]

Published

2006

12. Human telomeric position effect is determined by chromosomal context and telomeric chromatin integrity.

Author

Koering, Catherine Elaine, Pollice, Alessandra, Zibella, Maria Pia, Bauwens, Serge, Puisieux, Alain, Brunori, Michele, Brun, Christine, Martins, Luis, Sabatier, Laure, Pulitzer, John F., and Gilson, Eric

Subjects

TELOMERES, GENE expression, CHROMATIN, CELL lines, HUMAN chromosomes, BIOLOGICAL assay

Abstract

We investigated the influence of telomere proximity and composition on the expression of an EGFP reporter gene in human cells. In transient transfection assays, telomeric DNA does not repress EGFP but rather slightly increases its expression. In contrast, in stable cell lines, the same reporter construct is repressed when inserted at a subtelomeric location. The telomeric repression is transiently alleviated by increasing the dosage of the TTAGGG repeat factor 1 (TRF1). Upon a prolongated treatment with trichostatin A, the derepression of the subtelomeric reporter gene correlates with the delocalization of HP1a and HP1J3. In contrast, treating the cells with 5 azacytidin, a demethylating agent, or with sirtinol, an inhibitor of the Sir2 family of deacetylase, has no apparent effect on telomeric repression. Overall, position effects at human chromosome ends are dependent on a specific higher-order organization of the telomeric chromatin. The possible involvement of HP1 isoforms is discussed. [ABSTRACT FROM AUTHOR]

Published

2002

13. Expression of a non-functional p53 affects the sensitivity of cancer cells to gemcitabine.

Author

Galmarini, Carlos María, Clarke, Marilyn L., Falette, Nicole, Puisieux, Alain, Mackey, John R., and Dumontet, Charles

Published

2002

14. BTG gene expression in the p53-dependent and -independent cellular response to DNA damage.

Author

Cortes, Ulrich, Moyret-Lalle, Caroline, Falette, Nicole, Duriez, Cyril, Ghissassi, Fatiha El, Barnas, Christophe, Morel, Anne-Pierre, Hainaut, Pierre, Magaud, Jean-Pierre, and Puisieux, Alain

Published

2000

15. Germline hMSH2and hMLH1 gene mutations in incomplete HNPCC families.

Author

Wang, Qing, Desseigne, Françoise, Lasset, Christine, Saurin, Jean-Christophe, Navarro, Claudine, Yagci, Tamer, Keser, Ibrahim, Bagci, Hüseyin, Luleci, Güven, Gelen, Tekinalp, Chayvialle, Jean-Alain, Puisieux, Alain, and Ozturk, Mehmet

Published

1997

16. Influence of neuroblastoma stage on serum-based detection of MYCN amplification.

Author

Combaret, Valerie, Hogarty, Michael D., London, Wendy B., McGrady, Patrick, Iacono, Isabelle, Brejon, Stephanie, Swerts, Katrien, Noguera, Rosa, Gross, Nicole, Rousseau, Raphael, and Puisieux, Alain

Published

2009

17. Reviewer List 2014.

Published

2015