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1. A molecular atlas of the developing ectoderm defines neural, neural crest, placode, and nonneural progenitor identity in vertebrates.

Author

Plouhinec, Jean-Louis, Medina-Ruiz, Sofía, Borday, Caroline, Bernard, Elsa, Vert, Jean-Philippe, Eisen, Michael B, Harland, Richard M, and Monsoro-Burq, Anne H

Subjects
Neurons, Stem Cells, Ectoderm, Neural Crest, Animals, Xenopus laevis, Humans, Neoplasms, Microdissection, Cluster Analysis, Gene Expression Profiling, Gene Expression Regulation, Developmental, Algorithms, Principal Component Analysis, Time Factors, Internet, Databases, Genetic, Wnt Proteins, Gene Regulatory Networks, Neurulation, Gastrulation, Transcriptome, Gene Ontology, Gene Expression Regulation, Developmental, Databases, Genetic, Biological Sciences, Agricultural and Veterinary Sciences, Medical and Health Sciences, Developmental Biology
Abstract

During vertebrate neurulation, the embryonic ectoderm is patterned into lineage progenitors for neural plate, neural crest, placodes and epidermis. Here, we use Xenopus laevis embryos to analyze the spatial and temporal transcriptome of distinct ectodermal domains in the course of neurulation, during the establishment of cell lineages. In order to define the transcriptome of small groups of cells from a single germ layer and to retain spatial information, dorsal and ventral ectoderm was subdivided along the anterior-posterior and medial-lateral axes by microdissections. Principal component analysis on the transcriptomes of these ectoderm fragments primarily identifies embryonic axes and temporal dynamics. This provides a genetic code to define positional information of any ectoderm sample along the anterior-posterior and dorsal-ventral axes directly from its transcriptome. In parallel, we use nonnegative matrix factorization to predict enhanced gene expression maps onto early and mid-neurula embryos, and specific signatures for each ectoderm area. The clustering of spatial and temporal datasets allowed detection of multiple biologically relevant groups (e.g., Wnt signaling, neural crest development, sensory placode specification, ciliogenesis, germ layer specification). We provide an interactive network interface, EctoMap, for exploring synexpression relationships among genes expressed in the neurula, and suggest several strategies to use this comprehensive dataset to address questions in developmental biology as well as stem cell or cancer research.

Published
2017

4. TBC1D32 variants disrupt retinal ciliogenesis and cause retinitis pigmentosa

Author

Bocquet, Béatrice, primary, Borday, Caroline, additional, Erkilic, Nejla, additional, Mamaeva, Daria, additional, Donval, Alicia, additional, Masson-Garcia, Christel, additional, Parain, Karine, additional, Kaminska, Karolina, additional, Quinodoz, Mathieu, additional, Perea-Romero, Irene, additional, Garcia-Garcia, Gema, additional, Jimenez-Medina, Carla, additional, Boukhaddaoui, Hassan, additional, Coget, Arthur, additional, Leboucq, Nicolas, additional, Calzetti, Giacomo, additional, Gandolfi, Stefano A., additional, Percesepe, Antonio, additional, Barili, Valeria, additional, Uliana, Vera, additional, Delsante, Marco, additional, Bozzetti, Francesca, additional, Scholl, Hendrik P.N., additional, Corton, Marta, additional, Ayuso, Carmen, additional, Millan, Jose M., additional, Rivolta, Carlo, additional, Meunier, Isabelle, additional, Perron, Muriel, additional, and Kalatzis, Vasiliki, additional

Published
2023
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6. Breathing at Birth: Influence of Early Developmental Events

Author

Fortin, Gilles, Borday, Caroline, Germon, Isabelle, Champagnat, Jean, Back, Nathan, editor, Cohen, Irun R., editor, Kritchevsky, David, editor, Lajtha, Abel, editor, Paoletti, Rodolfo, editor, Champagnat, Jean, editor, Denavit-Saubié, Monique, editor, Fortin, Gilles, editor, Foutz, Arthur S., editor, and Thoby-Brisson, Muriel, editor

Published
2005
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10. Barhl2 maintains T cell factors as repressors and thereby switches off the Wnt/β-Catenin response driving Spemann organizer formation

Author

Sena, Elena, Rocques, Nathalie, Borday, Caroline, Muhamad Amin, Harem Sabr, Parain, Karine, Sitbon, David, Chesneau, Albert, Durand, Beatrice, DURAND, Beatrice, Signalisation normale et pathologique de l'embryon aux thérapies innovantes des cancers, Institut Curie [Paris]-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS), Institut des Neurosciences Paris-Saclay (NeuroPSI), Université Paris-Sud - Paris 11 (UP11)-Centre National de la Recherche Scientifique (CNRS), Institut de biologie de l'ENS Paris (IBENS), Département de Biologie - ENS Paris, École normale supérieure - Paris (ENS-PSL), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS)-École normale supérieure - Paris (ENS-PSL), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS), Dynamique du noyau [Institut Curie], and Institut Curie [Paris]-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS)

Subjects
Pluripotency, [SDV.BDD.EO]Life Sciences [q-bio]/Development Biology/Embryology and Organogenesis, Hdac, Barhl2, [SDV.BDD.EO] Life Sciences [q-bio]/Development Biology/Embryology and Organogenesis, Organizer, [SDV.BDD.MOR]Life Sciences [q-bio]/Development Biology/Morphogenesis, Stem cells, Tcf/Lef, Transcription, Groucho/Tle, [SDV.BDD.MOR] Life Sciences [q-bio]/Development Biology/Morphogenesis
Abstract

A hallmark of Wnt/β-Catenin signaling is the extreme diversity of its transcriptional response, which varies depending on the cell and developmental context. What controls this diversity is poorly understood. In all cases, the switch from transcriptional repression to activation depends on a nuclear increase in β-Catenin, which detaches the transcription factor T cell factor 7 like 1 (Tcf7l1) bound to Groucho (Gro) transcriptional co-repressors from its DNA-binding sites and transiently converts Tcf7/Lymphoid enhancer binding factor 1 (Lef1) into a transcriptional activator. One of the earliest and evolutionarily conserved functions of Wnt/β-Catenin signaling is the induction of the blastopore lip organizer. Here, we demonstrate that the evolutionarily conserved BarH-like homeobox-2 (Barhl2) protein stabilizes the Tcf7l1-Gro complex and maintains the repressed expression of Tcf target genes by a mechanism that depends on histone deacetylase 1 (Hdac-1) activity. In this way, Barhl2 switches off the Wnt/β-Catenin-dependent early transcriptional response, thereby limiting the formation of the organizer in time and/or space. This study reveals a novel nuclear inhibitory mechanism of Wnt/Tcf signaling that switches off organizer fate determination., L'une des caractéristiques de la signalisation de Wnt/β-Catenin est l'extrême diversité de sa réponse transcriptionnelle, qui varie en fonction de la cellule et du contexte de développement. Ce qui contrôle cette diversité est mal compris. Dans tous les cas, le passage de la répression transcriptionnelle à l'activation dépend d'une augmentation nucléaire de la β-Caténine, qui détache le facteur de transcription T (Tcf7l1) lié aux co-répresseurs transcriptionnels de Groucho (Gro) de ses sites de liaison ADN et transforme temporairement Tcf7 en un activateur de la transcription. L'une des premières fonctions de signalisation de Wnt/β-Catenin, conservée au cours de l'évolution, est l'induction de l'organiseur de lSpemann. Nous démontrons ici que la protéine BarH-like Homeobox-2 (Barhl2), conservée au cours de l'évolution, stabilise le complexe Tcf7l1-Gro et maintient l'expression réprimée des gènes cibles du Tcf par un mécanisme qui dépend de l'activité des histone désacétylases 1 (Hdac-1). De cette façon, Barhl2 désactive la réponse transcriptionnelle précoce dépendante de Wnt/β-Catenin, limitant ainsi la formation de l'organisateur dans le temps et/ou l'espace. Cette étude révèle un nouveau mécanisme d'inhibition nucléaire de la signalisation Wnt/Tcf qui désactive la détermination du sort de l'organisateur.

Published
2019

15. YAP controls retinal stem cell DNA replication timing and genomic stability

Author

Cabochette, Pauline, primary, Vega-Lopez, Guillermo, additional, Bitard, Juliette, additional, Parain, Karine, additional, Chemouny, Romain, additional, Masson, Christel, additional, Borday, Caroline, additional, Hedderich, Marie, additional, Henningfeld, Kristine A, additional, Locker, Morgane, additional, Bronchain, Odile, additional, and Perron, Muriel, additional

Published
2015
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16. Author response: YAP controls retinal stem cell DNA replication timing and genomic stability

Author

Cabochette, Pauline, primary, Vega-Lopez, Guillermo, additional, Bitard, Juliette, additional, Parain, Karine, additional, Chemouny, Romain, additional, Masson, Christel, additional, Borday, Caroline, additional, Hedderich, Marie, additional, Henningfeld, Kristine A, additional, Locker, Morgane, additional, Bronchain, Odile, additional, and Perron, Muriel, additional

Published
2015
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17. Interactions between canonical Wnt pathway and Hedgehog signalling in retinal stem/precursor cells

Author

Borday, Caroline, Parain, Karine, Perron, Muriel, Hamdache, Johanna, Stabilité génétique, Cellules Souches et Radiations (SCSR (U_967)), Université Paris-Sud - Paris 11 (UP11)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Université de Paris (UP), Neurobiologie et Développement (N&eD), Centre National de la Recherche Scientifique (CNRS), Institut de Neurobiologie Alfred Fessard (INAF), Cellules Souches et Radiations (SCSR (U967 / UMR-E_008)), Université Paris-Sud - Paris 11 (UP11)-Université Paris Diderot - Paris 7 (UPD7)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut National de la Santé et de la Recherche Médicale (INSERM), Université Paris-Sud - Paris 11 (UP11)-Centre National de la Recherche Scientifique (CNRS), and Université Paris-Sud - Paris 11 (UP11)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Université Paris Cité (UPCité)

Subjects
[SDV.NEU]Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC], ComputingMilieux_MISCELLANEOUS
Abstract

International audience

Published
2009

18. PFKFB4 control of AKT signaling is essential for premigratory and migratory neural crest formation.

Author

Figueiredo, Ana Leonor, Maczkowiak, Frédérique, Borday, Caroline, Pla, Patrick, Sittewelle, Meghane, Pegoraro, Caterina, and Monsoro-Burq, Anne H.

Subjects
PROTEIN kinase B, NEURAL crest, CELLULAR signal transduction
Abstract

Neural crest (NC) specification comprises an early phase, initiating immature NC progenitors formation at neural plate stage, and a later phase at neural fold stage, resulting in a functional premigratory NC that is able to delaminate and migrate. We found that the NC gene regulatory network triggers upregulation of pfkfb4 (6-phosphofructo- 2-kinase/fructose-2,6-bisphosphatase 4) during this late specification phase. As shown in previous studies, PFKFB4 controls AKT signaling in gastrulas and glycolysis rate in adult cells. Here, we focus on PFKFB4 function in NC during and after neurulation, using timecontrolled or hypomorph depletions in vivo. We find that PFKFB4 is essential both for specification of functional premigratory NC and for its migration. PFKFB4-depleted embryos fail to activate n-cadherin and late NC specifiers, and exhibit severe migration defects resulting in craniofacial defects. AKT signaling mediates PFKFB4 function in NC late specification, whereas both AKT signaling and glycolysis regulate migration. These findings highlight novel and essential roles of PFKFB4 activity in later stages of NC development that are wired into the NC gene regulatory network. [ABSTRACT FROM AUTHOR]

Published
2017
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21. Antagonistic cross-regulation between Wnt and Hedgehog signalling pathways controls post-embryonic retinal proliferation

Author

Borday, Caroline, primary, Cabochette, Pauline, additional, Parain, Karine, additional, Mazurier, Nicolas, additional, Janssens, Sylvie, additional, Tran, Hong Thi, additional, Sekkali, Belaïd, additional, Bronchain, Odile, additional, Vleminckx, Kris, additional, Locker, Morgane, additional, and Perron, Muriel, additional

Published
2012
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22. Induction of a parafacial rhythm generator by rhombomere 3 in the chick embryo.

Author

Coutinho, Ana P, Borday, Caroline, Gilthorpe, Jonathan, Jungbluth, Stefan, Champagnat, Jean, Lumsden, Andrew, Fortin, Gilles, Coutinho, Ana P, Borday, Caroline, Gilthorpe, Jonathan, Jungbluth, Stefan, Champagnat, Jean, Lumsden, Andrew, and Fortin, Gilles

Abstract

Observations of knock-out mice suggest that breathing at birth requires correct development of a specific hindbrain territory corresponding to rhombomeres (r) 3 and 4. Focusing on this territory, we examined the development of a neuronal rhythm generator in the chick embryo. We show that rhythmic activity in r4 is inducible after developmental stage 10 through interaction with r3. Although the nature of this interaction remains obscure, we find that the expression of Krox20, a segmentation gene responsible for specifying r3 and r5, is sufficient to endow other rhombomeres with the capacity to induce rhythmic activity in r4. Induction is robust, because it can be reproduced with r2 and r6 instead of r4 and with any hindbrain territory that normally expresses Krox20 (r3, r5) or can be forced to do so (r1, r4). Interestingly, the interaction between r4 and r3/r5 that results in rhythm production can only take place through the anterior border of r4, revealing a heretofore unsuspected polarity in individual rhombomeres. The r4 rhythm generator appears to be homologous to a murine respiratory parafacial neuronal system developing in r4 under the control of Krox20 and Hoxa1. These results identify a late role for Krox20 at the onset of neurogenesis.

Published
2004
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29. Antagonistic cross-regulation between Wnt and Hedgehog signalling pathways controls post-embryonic retinal roliferation.

Author

Borday, Caroline, Cabochette, Pauline, Parain, Karine, Mazurier, Nicolas, Janssens, Sylvie, Tran, Hong Thi, Sekkali, Belaïd, Bronchain, Odile, Vleminckx, Kris, Locker, Morgane, and Perron, Muriel

Subjects
*CELLULAR signal transduction, *ANTIBIOSIS, *NEURAL stem cells, *RETINA, *CELL proliferation, *DEVELOPMENTAL neurobiology, *NERVOUS system, *XENOPUS
Abstract

Continuous neurogenesis in the adult nervous system requires a delicate balance between proliferation and differentiation. Although Wnt/b-catenin and Hedgehog signalling pathways are thought to share a mitogenic function in adult neural stem/progenitor cells, it remains unclear how they interact in this process. Adult amphibians produce retinal neurons from a pool of neural stem cells localised in the ciliary marginal zone (CMZ). Surprisingly, we found that perturbations of the Wnt and Hedgehog pathways result in opposite proliferative outcomes of neural stem/progenitor cells in the CMZ. Additionally, our study revealed that Wnt and Hedgehog morphogens are produced in mutually exclusive territories of the post-embryonic retina. Using genetic and pharmacological tools, we found that the Wnt and Hedgehog pathways exhibit reciprocal inhibition. Our data suggest that Sfrp-1 and Gli3 contribute to this negative cross-regulation. Altogether, our results reveal an unexpected antagonistic interplay of Wnt and Hedgehog signals that may tightly regulate the extent of neural stem/progenitor cell proliferation in the Xenopus retina. [ABSTRACT FROM AUTHOR]

Published
2012
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30. Neuroinflammation as a cause of differential Müller cell regenerative responses to retinal injury.

Author

García-García, Diana, Vidal-Gil, Lorena, Parain, Karine, Jingxian Lun, Audic, Yann, Chesneau, Albert, Siron, Léa, Van Westendorp, Demi, Lourdel, Sophie, Sánchez-Sáez, Xavier, Kazani, Despoina, Ricard, Julien, Pottin, Solène, Donval, Alicia, Bronchain, Odile, Locker, Morgane, Roger, Jérôme E., Borday, Caroline, Pla, Patrick, and Bitard, Juliette

Subjects
*RETINAL injuries, *RETINITIS pigmentosa, *CELL cycle, *CELL proliferation, *FUNCTIONAL analysis
Abstract

Unlike mammals, some nonmammalian species recruit Müller glia for retinal regeneration after injury. Identifying the underlying mechanisms may help to foresee regenerative medicine strategies. Using a Xenopus model of retinitis pigmentosa, we found that Müller cells actively proliferate upon photoreceptor degeneration in old tadpoles but not in younger ones. Differences in the inflammatory microenvironment emerged as an explanation for such stage dependency. Functional analyses revealed that enhancing neuroinflammation is sufficient to trigger Müller cell proliferation, not only in young tadpoles but also in mice. In addition, we showed that microglia are absolutely required for the response of mouse Müller cells to mitogenic factors while negatively affecting their neurogenic potential. However, both cell cycle reentry and neurogenic gene expression are allowed when applying sequential pro-and anti-inflammatory treatments. This reveals that inflammation benefits Müller glia proliferation in both regenerative and nonregenerative vertebrates and highlights the importance of sequential inflammatory modulation to create a regenerative permissive microenvironment. [ABSTRACT FROM AUTHOR]

Published
2024
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31. Barhl2 maintains T cell factors as repressors and thereby switches off the Wnt/β-Catenin response driving Spemann organizer formation.

Author

Sena E, Rocques N, Borday C, Muhamad Amin HS, Parain K, Sitbon D, Chesneau A, and Durand BC

Subjects
Animals, Female, Homeodomain Proteins genetics, Immunoprecipitation, In Situ Hybridization, Luciferases, Firefly genetics, Luciferases, Firefly metabolism, Male, Nerve Tissue Proteins genetics, Plasmids genetics, TCF Transcription Factors genetics, Xenopus laevis, beta Catenin genetics, Homeodomain Proteins metabolism, Nerve Tissue Proteins metabolism, Organizers, Embryonic metabolism, TCF Transcription Factors metabolism, beta Catenin metabolism
Abstract

A hallmark of Wnt/β-Catenin signaling is the extreme diversity of its transcriptional response, which varies depending on the cell and developmental context. What controls this diversity is poorly understood. In all cases, the switch from transcriptional repression to activation depends on a nuclear increase in β-Catenin, which detaches the transcription factor T cell factor 7 like 1 (Tcf7l1) bound to Groucho (Gro) transcriptional co-repressors from its DNA-binding sites and transiently converts Tcf7/Lymphoid enhancer binding factor 1 (Lef1) into a transcriptional activator. One of the earliest and evolutionarily conserved functions of Wnt/β-Catenin signaling is the induction of the blastopore lip organizer. Here, we demonstrate that the evolutionarily conserved BarH-like homeobox-2 (Barhl2) protein stabilizes the Tcf7l1-Gro complex and maintains the repressed expression of Tcf target genes by a mechanism that depends on histone deacetylase 1 (Hdac-1) activity. In this way, Barhl2 switches off the Wnt/β-Catenin-dependent early transcriptional response, thereby limiting the formation of the organizer in time and/or space. This study reveals a novel nuclear inhibitory mechanism of Wnt/Tcf signaling that switches off organizer fate determination., Competing Interests: Competing interestsThe authors declare no competing or financial interests., (© 2019. Published by The Company of Biologists Ltd.)

Published
2019
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