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36 results on '"Corsinotti, Andrea"'

1. Microglia protect against age-associated brain pathologies

Author

Munro, David A.D., Bestard-Cuche, Nadine, McQuaid, Conor, Chagnot, Audrey, Shabestari, Sepideh Kiani, Chadarevian, Jean Paul, Maheshwari, Upasana, Szymkowiak, Stefan, Morris, Kim, Mohammad, Mehreen, Corsinotti, Andrea, Bradford, Barry, Mabbott, Neil, Lennen, Ross J., Jansen, Maurits A., Pridans, Clare, McColl, Barry W., Keller, Annika, Blurton-Jones, Mathew, Montagne, Axel, Williams, Anna, and Priller, Josef

Published
2024
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2. Illumina SBS Sequencing and DNBSEQ Perform Similarly for Single-Cell Transcriptomics.

Author

Bestard-Cuche, Nadine, Munro, David A. D., Beniazza, Meryam, Priller, Josef, Williams, Anna, and Corsinotti, Andrea

Subjects
GENE mapping, NUCLEOTIDE sequencing, GENE expression, RNA sequencing, DNA sequencing
Abstract

Background/Objectives: High-throughput single-cell RNA sequencing (scRNA-seq) workflows produce libraries that demand extensive sequencing. However, standard next-generation sequencing (NGS) methods remain expensive, contributing to the high running costs of single-cell experiments and often negatively affecting the sample numbers and statistical strength of such projects. In recent years, a plethora of new sequencing technologies have become available to researchers through several manufacturers, often providing lower-cost alternatives to standard NGS. Methods: In this study, we compared data generated from mouse scRNA-seq libraries sequenced with both standard Illumina sequencing by synthesis (Illumina SBS) and MGI's DNA nanoball sequencing (DNBSEQ). Results: Our findings reveal similar overall performance using both technologies. DNBSEQ exhibited mildly superior sequence quality compared to Illumina SBS, as evidenced by higher Phred scores, lower read duplication rates and a greater number of genes mapping to the reference genome. Yet these improvements did not translate into meaningful differences in single-cell analysis parameters in our experiments, including detection of additional genes within cells, gene expression saturation levels and numbers of identified cells, with both technologies demonstrating equally robust performance in these aspects. The data produced by both sequencing platforms also produced comparable analytical outcomes for single-cell analysis. No significant difference in the annotation of cells into different cell types was observed and the same top genes were differentially expressed between populations and experimental conditions. Conclusions: Overall, our data demonstrate that alternative technologies can be applied to sequence scRNA-seq libraries, generating virtually indistinguishable results compared to standard methods, and providing cost-effective alternatives. [ABSTRACT FROM AUTHOR]

Published
2024
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3. Multiomic analysis of human kidney disease identifies a tractable inflammatory, pro-fibrotic tubular cell phenotype

Author

Conway, Bryan, primary, Reck, Maximilian, additional, Baird, David, additional, Sutherland, Callum, additional, Bell, Rachel, additional, Hur, Heeyoun, additional, Cairns, Carolynn, additional, Campbell, Ross, additional, Nam, Andy, additional, Yang, Wei, additional, Schurman, Nathan, additional, Williams, Claire, additional, Veizades, Stefan, additional, O'Sullivan, Eoin, additional, Corsinotti, Andrea, additional, Bellamy, Christopher, additional, Hughes, Jeremy, additional, Laird, Alexander, additional, Denby, Laura, additional, Chandra, Tamir, additional, and Ferenbach, David, additional

Published
2024
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4. Thymic epithelial cell fate and potency in early organogenesis assessed by single cell transcriptional and functional analysis

Author

Farley, Alison Mary, primary, Chengrui, An, additional, Palmer, Sam, additional, Liu, Dong, additional, Kousa, Anastasia I., additional, Rouse, Paul, additional, Major, Viktoria, additional, Sweetman, Joanna, additional, Morys, Jan, additional, Corsinotti, Andrea, additional, Nichols, Jennifer, additional, Ure, Janice, additional, McLay, Renee, additional, Boulter, Luke, additional, Chapman, S. Jon, additional, Tomlinson, Simon R., additional, and Blackburn, C. Clare, additional

Published
2023
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5. TRIM24 Is an Oncogenic Transcriptional Activator in Prostate Cancer

Author

Groner, Anna C., Cato, Laura, de Tribolet-Hardy, Jonas, Bernasocchi, Tiziano, Janouskova, Hana, Melchers, Diana, Houtman, René, Cato, Andrew C.B., Tschopp, Patrick, Gu, Lei, Corsinotti, Andrea, Zhong, Qing, Fankhauser, Christian, Fritz, Christine, Poyet, Cédric, Wagner, Ulrich, Guo, Tiannan, Aebersold, Ruedi, Garraway, Levi A., Wild, Peter J., Theurillat, Jean-Philippe, and Brown, Myles

Published
2016
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12. The developmental basis of fingerprint pattern formation and variation

Author

Glover, James D., primary, Sudderick, Zoe R., additional, Shih, Barbara Bo-Ju, additional, Batho-Samblas, Cameron, additional, Charlton, Laura, additional, Krause, Andrew L., additional, Anderson, Calum, additional, Riddell, Jon, additional, Balic, Adam, additional, Li, Jinxi, additional, Klika, Václav, additional, Woolley, Thomas E., additional, Gaffney, Eamonn A., additional, Corsinotti, Andrea, additional, Anderson, Richard A., additional, Johnston, Luke J., additional, Brown, Sara J., additional, Wang, Sijia, additional, Chen, Yuhang, additional, Crichton, Michael L., additional, and Headon, Denis J., additional

Published
2023
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18. Distinct SoxB1 networks are required for naïve and primed pluripotency

Author

Corsinotti, Andrea, primary, Wong, Frederick CK, additional, Tatar, Tülin, additional, Szczerbinska, Iwona, additional, Halbritter, Florian, additional, Colby, Douglas, additional, Gogolok, Sabine, additional, Pantier, Raphaël, additional, Liggat, Kirsten, additional, Mirfazeli, Elham S, additional, Hall-Ponsele, Elisa, additional, Mullin, Nicholas P, additional, Wilson, Valerie, additional, and Chambers, Ian, additional

Published
2017
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19. Author response: Distinct SoxB1 networks are required for naïve and primed pluripotency

Author

Corsinotti, Andrea, primary, Wong, Frederick CK, additional, Tatar, Tülin, additional, Szczerbinska, Iwona, additional, Halbritter, Florian, additional, Colby, Douglas, additional, Gogolok, Sabine, additional, Pantier, Raphaël, additional, Liggat, Kirsten, additional, Mirfazeli, Elham S, additional, Hall-Ponsele, Elisa, additional, Mullin, Nicholas P, additional, Wilson, Valerie, additional, and Chambers, Ian, additional

Published
2017
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20. A KRAB/KAP1-microRNA cascade regulates erythropoiesis through the stage-specific control of mitophagy

Author

Barde, Isabelle, Rauwel, Benjamin, Marin-Florez, Ray Marcel, Corsinotti, Andrea, Laurenti, Elisa, Verp, Sonia, Offner, Sandra, Marquis, Julien, Kapopoulou, Adamandia, Vanicek, Jiri, and Trono, Didier

Subjects
Article
Abstract

Hematopoiesis is orchestrated by a succession of lineage- and stage-specific transcription factors working in concert with chromatin modifiers. Here, we explored the role of KRAB-containing zinc finger proteins (KRAB-ZFPs) and their cofactor KAP1 in this process. The hematopoietic-restricted deletion of Kap1 in the mouse resulted in severe hypoproliferative anemia, with Kap1-deleted erythroblasts failing to induce mitophagy-associated genes, hence to eliminate mitochondria. This was due to persistent expression of microRNAs targeting mitophagy transcripts, itself secondary to a lack of repression by stage-specific KRAB-ZFPs. This KRAB/KAP1-microRNA regulatory cascade is evolutionary conserved, as it also controls mitophagy during human erythropoiesis. A multilayered transcription regulatory system is thus unveiled, where protein- and RNA-based repressors are super-imposed in combinatorial fashion to govern the timely triggering of an essential differentiation event.

Published
2014

21. KRAB/KAP1 Regulation of Embryonic Stem Cell Pluripotent Self-renewal

Author

Corsinotti, Andrea and Trono, Didier

Subjects
Zfp459, KRAB, transcription factors, KAP1, embryonic structures, ChIP, embryonic stem cells, biological phenomena, cell phenomena, and immunity, pluripotency, ZFP, reproductive and urinary physiology, Zfp57
Abstract

KRAB-ZFPs constitute the largest family of transcription factors (TFs) encoded by the mouse genome and are known to interact with the co-repressor KAP1. KRAB/KAP1-mediated regulation is essential for several development- and ESC- specific functions, in particular regulation of pluripotent self-renewal. We performed an expression analysis in mouse pluripotent ESCs and differentiated cells. A large number of KRAB-ZFPs was expressed in pluripotent cells and many of them were differentially regulated in other cell types, suggesting that a set of KRAB-ZFPs can be involved in ESC-specific functions. We identified a set of candidate genes, including Zfp459, which show a pluripotency-specific expression pattern. Zfp459 depletion in ESCs induced transcriptional perturbation of pluripotency- and differentiation-associated genes, even if their ability to self-renew or to differentiate was not impaired, and its expression was not required for the formation of blastocysts ex vivo. To understand the precise role of Zfp459 in ESCs further experiments for the identification of its targets are still required. We used a lentiviral vector (LV) to over-express in ESCs ZFP57, which had been previously demonstrated to play a role in regulating genomic imprinting, in fusion with HA-tags. ChIP-seq experiments using a HA antibody demonstrated that ZFP57-HA binds all the known and predicted imprinted loci and identified a hexanucleotide consensus in most of the ZFP57 binding sites co-occupied also by KAP1 and its associated factor SetDB1. We also demonstrated that our LV based expression system could be exploited to perform ChIP-seq analyses in ESCs of TFs, such as Zfp459, for which specific antibodies are not available. Finally, when we cultured ESCs in different conditions, we observed that KAP1 recruitment upstream of Nanog, which had been previously observed, was dependent on the MAPK and GSK3 signaling pathways. We hypothesized that this could be due to the presence in these conditions of ESCs expressing heterogeneous Nanog levels. However, when Nanoghigh and Nanoglow cells were sorted, both the populations shown a comparable enrichment for KAP1 binding upstream of Nanog. The precise role for the KAP1-mediated regulation of Nanog in ESCs and its dependence on extrinsic signaling pathways remains unclear, even if we hypothesize that it can depend on the mono-/bi-allelic expression of Nanog in ESCs and during early development.

Published
2012
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22. Identification of the transcription factor ZEB1 as a central component of the adipogenic gene regulatory network

Author

Gubelmann, Carine, primary, Schwalie, Petra C, additional, Raghav, Sunil K, additional, Röder, Eva, additional, Delessa, Tenagne, additional, Kiehlmann, Elke, additional, Waszak, Sebastian M, additional, Corsinotti, Andrea, additional, Udin, Gilles, additional, Holcombe, Wiebke, additional, Rudofsky, Gottfried, additional, Trono, Didier, additional, Wolfrum, Christian, additional, and Deplancke, Bart, additional

Published
2014
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23. Author response: Identification of the transcription factor ZEB1 as a central component of the adipogenic gene regulatory network

Author

Gubelmann, Carine, primary, Schwalie, Petra C, additional, Raghav, Sunil K, additional, Röder, Eva, additional, Delessa, Tenagne, additional, Kiehlmann, Elke, additional, Waszak, Sebastian M, additional, Corsinotti, Andrea, additional, Udin, Gilles, additional, Holcombe, Wiebke, additional, Rudofsky, Gottfried, additional, Trono, Didier, additional, Wolfrum, Christian, additional, and Deplancke, Bart, additional

Published
2014
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24. TRIM28 repression of retrotransposon-based enhancers is necessary to preserve transcriptional dynamics in embryonic stem cells

Author

Rowe, Helen M., Kapopoulou, Adamandia, Corsinotti, Andrea, Fasching, Liana, Macfarlan, Todd S., Tarabay, Yara, Viville, Stephane, Jakobsson, Johan, Pfaff, Samuel L., Trono, Didier, Rowe, Helen M., Kapopoulou, Adamandia, Corsinotti, Andrea, Fasching, Liana, Macfarlan, Todd S., Tarabay, Yara, Viville, Stephane, Jakobsson, Johan, Pfaff, Samuel L., and Trono, Didier

Abstract

TRIM28 is critical for the silencing of endogenous retroviruses (ERVs) in embryonic stem (ES) cells. Here, we reveal that an essential impact of this process is the protection of cellular gene expression in early embryos from perturbation by cis-acting activators contained within these retroelements. In TRIM28-depleted ES cells, repressive chromatin marks at ERVs are replaced by histone modifications typical of active enhancers, stimulating transcription of nearby cellular genes, notably those harboring bivalent promoters. Correspondingly, ERV-derived sequences can repress or enhance expression from an adjacent promoter in transgenic embryos depending on their TRIM28 sensitivity in ES cells. TRIM28-mediated control of ERVs is therefore crucial not just to prevent retrotransposition, but more broadly to safeguard the transcriptional dynamics of early embryos.

Published
2013

25. Contrôle de la mitophagie par les microARN

Author

Barde, Isabelle, primary, Rauwel, Benjamin, additional, Marin-Florez, Ray Marcel, additional, Corsinotti, Andrea, additional, Laurenti, Elisa, additional, Verp, Sonia, additional, Offner, Sandra, additional, Marquis, Julien, additional, Kapopoulou, Adamandia, additional, Vanicek, Jiri, additional, and Trono, Didier, additional

Published
2014
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28. KAP1 regulates gene networks controlling T‐cell development and responsiveness

Author

Sio, Francesca R. Santoni, primary, Barde, Isabelle, additional, Offner, Sandra, additional, Kapopoulou, Adamandia, additional, Corsinotti, Andrea, additional, Bojkowska, Karolina, additional, Genolet, Raphaël, additional, Thomas, James H., additional, Luescher, Immanuel F., additional, Pinschewer, Daniel, additional, Harris, Nicola, additional, and Trono, Didier, additional

Published
2012
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31. KAP1 regulates gene networks controlling T-cell development and responsiveness.

Author

R. Santoni de Sio, Francesca, Barde, Isabelle, Offner, Sandra, Kapopoulou, Adamandia, Corsinotti, Andrea, Bojkowska, Karolina, Genolet, Raphaél, Thomas, James H., Luescher, Immanuel F., Pinschewer, Daniel, Harris, Nicola, and Trono, Didier

Subjects
EPIGENETICS, ZINC-finger proteins, T cells, GENE expression, CELL differentiation
Abstract

Chromatin remodeling at specific genomic loci controls lymphoid differentiation. Here, we investigated the role played in this process by Kruppel-associated box (KRAB)-associated protein 1 (KAP1), the universal cofactor of KRAB-zinc finger proteins (ZFPs), a tetrapod-restricted family of transcriptional repressors. T-cell-specific Kap1-deleted mice displayed a significant expansion of immature thymocytes, imbalances in CD4+/CD8+ cell ratios, and altered responses to TCR and TGFβ stimulation when compared to littermate KAP1 control mice. Transcriptome and chromatin studies revealed that KAP1 binds T-cell-specific cis-acting regulatory elements marked by the H3K9me3 repressive mark and enriched in Ikaros/NuRD complexes. Also, KAP1 directly controls the expression of several genes involved in TCR and cytokine signaling. Among these, regulation of FoxOl seems to play a major role in this system. Likely responsible for tethering KAP1 to at least part of its genomic targets, a small number of KRAB-ZFPs are selectively expressed in T-lymphoid cells. These results reveal the so far unsuspected yet important role of KAP1-mediated epigenetic regulation in T-lymphocyte differentiation and activation. [ABSTRACT FROM AUTHOR]

Published
2012
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32. KAP1 regulates gene networks controlling T-cell development and responsiveness

Author

de Sio, Santoni, Francesca, R., Barde, Isabelle, Offner, Sandra, Kapopoulou, Adamandia, Corsinotti, Andrea, Bojkowska, Karolina, Genolet, Raphaël, Thomas, James H., Luescher, Immanuel F., Pinschewer, Daniel, Harris, Nicola, and Trono, Didier

Subjects
epigenetics, KRAB-ZFP, KAP1, adaptive immune cells, Kruppelassociated box zinc finger proteins, KRAB-ZFPassociated protein 1
Abstract

Chromatin remodeling at specific genomic loci controls lymphoid differentiation. Here, we investigated the role played in this process by Kruppel-associated box (KRAB)-associated protein 1 (KAP1), the universal cofactor of KRAB-zinc finger proteins (ZFPs), a tetrapod-restricted family of transcriptional repressors. T-cell-specific Kap1-deleted mice displayed a significant expansion of immature thymocytes, imbalances in CD4(+)/CD8(+) cell ratios, and altered responses to TCR and TGFβ stimulation when compared to littermate KAP1 control mice. Transcriptome and chromatin studies revealed that KAP1 binds T-cell-specific cis-acting regulatory elements marked by the H3K9me3 repressive mark and enriched in Ikaros/NuRD complexes. Also, KAP1 directly controls the expression of several genes involved in TCR and cytokine signaling. Among these, regulation of FoxO1 seems to play a major role in this system. Likely responsible for tethering KAP1 to at least part of its genomic targets, a small number of KRAB-ZFPs are selectively expressed in T-lymphoid cells. These results reveal the so far unsuspected yet important role of KAP1-mediated epigenetic regulation in T-lymphocyte differentiation and activation.- Santoni de Sio, F. R., Barde, I., Offner, S., Kapopoulou, A., Corsinotti, A., Bojkowska, K., Genolet, R., Thomas, J. H., Luescher, I. F., Pinschewer, D., Harris, N., Trono, D. KAP1 regulates gene networks controlling T-cell development and responsiveness.

33. Global and stage specific patterns of krüppel-associated-box zinc finger protein gene expression in murine early embryonic cells

Author

Corsinotti, Andrea, Kapopoulou, Adamandia, Gubelmann, Carine, Imbeault, Michael, de Sio, Santoni, Francesca, R., Rowe, Helen M., Mouscaz, Yoann, Deplancke, Bart, and Trono, Didier

Abstract

Highly coordinated transcription networks orchestrate the self-renewal of pluripotent stem cell and the earliest steps of mammalian development. KRAB-containing zinc finger proteins represent the largest group of transcription factors encoded by the genomes of higher vertebrates including mice and humans. Together with their putatively universal cofactor KAP1, they have been implicated in events as diverse as the silencing of endogenous retroelements, the maintenance of imprinting and the pluripotent self-renewal of embryonic stem cells, although the genomic targets and specific functions of individual members of this gene family remain largely undefined. Here, we first generated a list of Ensembl-annotated KRAB-containing genes encoding the mouse and human genomes. We then defined the transcription levels of these genes in murine early embryonic cells. We found that the majority of KRAB-ZFP genes are expressed in mouse pluripotent stem cells and other early progenitors. However, we also identified distinctively cell- or stage-specific patterns of expression, some of which are pluripotency-restricted. Finally, we determined that individual KRAB-ZFP genes exhibit highly distinctive modes of expression, even when grouped in genomic clusters, and that these cannot be correlated with the presence of prototypic repressive or activating chromatin marks. These results pave the way to delineating the role of specific KRAB-ZFPs in early embryogenesis.

35. KAP1 regulates gene networks controlling mouse B-lymphoid cell differentiation and function

Author

de Sio, Santoni, Francesca, R., Massacand, Joanna, Barde, Isabelle, Offner, Sandra, Corsinotti, Andrea, Kapopoulou, Adamandia, Bojkowska, Karolina, Dagklis, Antonis, Fernandez, Marylise, Ghia, Paolo, Thomas, James H., Pinschewer, Daniel, Harris, Nicola, and Trono, Didier

Abstract

Chromatin remodeling is fundamental for B-cell differentiation. In the present study, we explored the role of KAP1, the cofactor of KRAB-ZFP transcriptional repressors, in this process. B-lymphoid-specific Kap1-KO mice displayed reduced numbers of mature B cells, lower steady-state levels of Abs, and accelerated rates of decay of neutralizing Abs after viral immunization. Transcriptome analyses of Kap1-deleted B splenocytes revealed an up-regulation of PTEN, the enzymatic counteractor of PIK3 signaling, and of genes encoding DNA-damage response factors, cell-cycle regulators, and chemokine receptors. ChIP/seq studies established that KAP1 bound at or close to several of these genes and controlled chromatin status at their promoters. Genome wide, KAP1 binding sites lacked active B cell-specific enhancers and were enriched in repressive histone marks, further supporting a role for this molecule in gene silencing in vivo. Likely responsible for tethering KAP1 to at least some of these targets, a discrete subset of KRAB-ZFPs is enriched in B lymphocytes. Our results therefore reveal the role of KRAB/KAP1-mediated epigenetic regulation in B-cell development and homeostasis.

36. [A KRAB/KAP1-miRNA cascade regulates erythropoiesis through stage-specific control of mitophagy].

Author

Barde I, Rauwel B, Marin-Florez RM, Corsinotti A, Laurenti E, Verp S, Offner S, Marquis J, Kapopoulou A, Vanicek J, and Trono D

Subjects
Animals, Cell Differentiation genetics, Humans, Mice, Mice, Knockout, Signal Transduction physiology, Tripartite Motif-Containing Protein 28, Carrier Proteins physiology, Erythropoiesis physiology, MicroRNAs physiology, Mitophagy genetics, Nuclear Proteins physiology, Repressor Proteins physiology
Published
2014
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