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1. Transient regulation of focal adhesion via Tensin3 is required for nascent oligodendrocyte differentiation

Author

Merour, Emeric, Hmidan, Hatem, Marie, Corentine, Helou, Pierre-Henri, Lu, Haiyang, Potel, Antoine, Hure, Jean-Baptiste, Clavairoly, Adrien, Shih, Yi Ping, Goudarzi, Salman, Dussaud, Sebastien, Ravassard, Philippe, Hafizi, Sassan, Lo, Su Hao, Hassan, Bassem A, and Parras, Carlos

Subjects
Biochemistry and Cell Biology, Biological Sciences, Stem Cell Research - Nonembryonic - Non-Human, Neurosciences, Regenerative Medicine, Stem Cell Research, Genetics, Humans, Animals, Mice, Focal Adhesions, Tumor Suppressor Protein p53, Oligodendroglia, Cell Differentiation, Mice, Knockout, Transcription Factors, Chromatin, Integrins, oligodendrocyte differentiation, tensin, oligodendroglial survival, immature oligodedrocyte marker, Human, Mouse, developmental biology, human, mouse, neuroscience, Biological sciences, Biomedical and clinical sciences, Health sciences
Abstract

The differentiation of oligodendroglia from oligodendrocyte precursor cells (OPCs) to complex and extensive myelinating oligodendrocytes (OLs) is a multistep process that involves large-scale morphological changes with significant strain on the cytoskeleton. While key chromatin and transcriptional regulators of differentiation have been identified, their target genes responsible for the morphological changes occurring during OL myelination are still largely unknown. Here, we show that the regulator of focal adhesion, Tensin3 (Tns3), is a direct target gene of Olig2, Chd7, and Chd8, transcriptional regulators of OL differentiation. Tns3 is transiently upregulated and localized to cell processes of immature OLs, together with integrin-β1, a key mediator of survival at this transient stage. Constitutive Tns3 loss of function leads to reduced viability in mouse and humans, with surviving knockout mice still expressing Tns3 in oligodendroglia. Acute deletion of Tns3 in vivo, either in postnatal neural stem cells (NSCs) or in OPCs, leads to a twofold reduction in OL numbers. We find that the transient upregulation of Tns3 is required to protect differentiating OPCs and immature OLs from cell death by preventing the upregulation of p53, a key regulator of apoptosis. Altogether, our findings reveal a specific time window during which transcriptional upregulation of Tns3 in immature OLs is required for OL differentiation likely by mediating integrin-β1 survival signaling to the actin cytoskeleton as OL undergo the large morphological changes required for their terminal differentiation.

Published
2022

2. Gene delivery to pancreatic exocrine cells in vivo and in vitro

Author

Houbracken Isabelle, Baeyens Luc, Ravassard Philippe, Heimberg Harry, and Bouwens Luc

Subjects
Lentiviral vector, Adenoviral vector, Lipofection, Gene transfer, Pancreas, Acinar cell, Biotechnology, TP248.13-248.65
Abstract

Abstract Background Effective gene transfer to the pancreas or to pancreatic cells has remained elusive although it is essential for studies of genetic lineage tracing and modulation of gene expression. Different transduction methods and viral vectors were tested in vitro and in vivo, in rat and mouse pancreas. Results For in vitro transfection/transduction of rat exocrine cells lipofection reagents, adenoviral vectors, and Mokola- and VSV-G pseudotyped lentiviral vectors were used. For in vivo transduction of mouse and rat pancreas adenoviral vectors and VSV-G lentiviral vectors were injected into the parenchymal tissue. Both lipofection of rat exocrine cell cultures and transduction with Mokola pseudotyped lentiviral vectors were inefficient and resulted in less than 4% EGFP expressing cells. Adenoviral transduction was highly efficient but its usefulness for gene delivery to rat exocrine cells in vitro was hampered by a drastic increase in cell death. In vitro transduction of rat exocrine cells was most optimal with VSV-G pseudotyped lentiviral vectors, with stable transgene expression, no significant effect on cell survival and about 40% transduced cells. In vivo, pancreatic cells could not be transduced by intra-parenchymal administration of lentiviral vectors in mouse and rat pancreas. However, a high efficiency could be obtained by adenoviral vectors, resulting in transient transduction of mainly exocrine acinar cells. Injection in immune-deficient animals diminished leukocyte infiltration and prolonged transgene expression. Conclusions In summary, our study remarkably demonstrates that transduction of pancreatic exocrine cells requires lentiviral vectors in vitro but adenoviral vectors in vivo.

Published
2012
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3. Correction: ASPM-associated stem cell proliferation is involved in malignant progression of gliomas and constitutes an attractive therapeutic target

Author

Calvo Charles, Boisselier Blandine, Idbaih Ahmed, Rousseau Audrey, Ravassard Philippe, Vampouille Raphaël, Marie Yannick, Colin Carole, Bikeye Sandra-Nadia, Leuraud Pascal, Lassalle Myriam, El Hallani Soufiane, Delattre Jean-Yves, and Sanson Marc

Subjects
Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282, Cytology, QH573-671
Published
2011
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4. ASPM-associated stem cell proliferation is involved in malignant progression of gliomas and constitutes an attractive therapeutic target

Author

Calvo Charles, Boisselier Blandine, Idbaih Ahmed, Rousseau Audrey, Ravassard Philippe, Vampouille Raphaël, Marie Yannick, Colin Carole, Bikeye Sandra-Nadia, Leuraud Pascal, Lassalle Myriam, El Hallani Soufiane, Delattre Jean-Yves, and Sanson Marc

Subjects
Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282, Cytology, QH573-671
Abstract

Abstract Background ASPM (Abnormal Spindle-like Microcephaly associated) over-expression was recently implicated in the development of malignant gliomas. Results To better characterize the involvement of ASPM in gliomas, we investigated the mRNA expression in 175 samples, including 8 WHO Grade II, 75 WHO Grade III and 92 WHO Grade IV tumors. Aspm expression was strongly correlated with tumor grade and increased at recurrence when compared to the initial lesion, whatever the initial grade of the primary tumor. ASPM expression also increased over serial passages in gliomaspheres in vitro and in mouse xenografts in vivo. Lentivirus-mediated shRNA silencing of ASPM resulted in dramatic proliferation arrest and cell death in two different gliomasphere models. Conclusion These data suggest that ASPM is involved in the malignant progression of gliomas, possibly through expansion of a cancer stem cell compartment, and is an attractive therapeutic target in glioblastoma multiforme.

Published
2010
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5. EndoC-βH5 cells are storable and ready-to-use human pancreatic beta cells with physiological insulin secretion

Author

Bruno Blanchi, Marion Taurand, Claire Colace, Sofia Thomaidou, Charlotte Audeoud, Federica Fantuzzi, Toshiaki Sawatani, Sevda Gheibi, Joan Sabadell-Basallote, Fransje W.J. Boot, Thibault Chantier, Aline Piet, Charlotte Cavanihac, Marion Pilette, Adélie Balguerie, Hamza Olleik, Françoise Carlotti, Miriam Ejarque, Malin Fex, Hindrik Mulder, Miriam Cnop, Decio L. Eizirik, Ouardane Jouannot, Anne-Lise Gaffuri, Paul Czernichow, Arnaud Zaldumbide, Raphaël Scharfmann, and Philippe Ravassard

Subjects
Human pancreatic beta cell line, Human beta cell function, Glucose and incretin stimulated insulin secretion, Type-I diabetes disease model, Internal medicine, RC31-1245
Abstract

Objectives: Readily accessible human pancreatic beta cells that are functionally close to primary adult beta cells are a crucial model to better understand human beta cell physiology and develop new treatments for diabetes. We here report the characterization of EndoC-βH5 cells, the latest in the EndoC-βH cell family. Methods: EndoC-βH5 cells were generated by integrative gene transfer of immortalizing transgenes hTERT and SV40 large T along with Herpes Simplex Virus-1 thymidine kinase into human fetal pancreas. Immortalizing transgenes were removed after amplification using CRE activation and remaining non-excized cells eliminated using ganciclovir. Resulting cells were distributed as ready to use EndoC-βH5 cells. We performed transcriptome, immunological and extensive functional assays. Results: Ready to use EndoC-βH5 cells display highly efficient glucose dependent insulin secretion. A robust 10-fold insulin secretion index was observed and reproduced in four independent laboratories across Europe. EndoC-βH5 cells secrete insulin in a dynamic manner in response to glucose and secretion is further potentiated by GIP and GLP-1 analogs. RNA-seq confirmed abundant expression of beta cell transcription factors and functional markers, including incretin receptors. Cytokines induce a gene expression signature of inflammatory pathways and antigen processing and presentation. Finally, modified HLA-A2 expressing EndoC-βH5 cells elicit specific A2-alloreactive CD8 T cell activation. Conclusions: EndoC-βH5 cells represent a unique storable and ready to use human pancreatic beta cell model with highly robust and reproducible features. Such cells are thus relevant for the study of beta cell function, screening and validation of new drugs, and development of disease models.

Published
2023
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7. C9ORF72 knockdown triggers FTD-like symptoms and cell pathology in mice

Author

Maria-Belen Lopez-Herdoiza, Stephanie Bauché, Baptiste Wilmet, Caroline Le Duigou, Delphine Roussel, Magali Frah, Jonas Béal, Gabin Devely, Susana Boluda, Petra Frick, Delphine Bouteiller, Sébastien Dussaud, Pierre Guillabert, Carine Dalle, Magali Dumont, Agnes Camuzat, Dario Saracino, Mathieu Barbier, Gaelle Bruneteau, Phillippe Ravassard, Manuela Neumann, Sophie Nicole, Isabelle Le Ber, Alexis Brice, and Morwena Latouche

Subjects
TDP-43, C9ORF72, FTD (frontotemporal dementia), ALS (amyotrophic lateral sclerosis), autophagy/lysosomal pathway, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

The GGGGCC intronic repeat expansion within C9ORF72 is the most common genetic cause of ALS and FTD. This mutation results in toxic gain of function through accumulation of expanded RNA foci and aggregation of abnormally translated dipeptide repeat proteins, as well as loss of function due to impaired transcription of C9ORF72. A number of in vivo and in vitro models of gain and loss of function effects have suggested that both mechanisms synergize to cause the disease. However, the contribution of the loss of function mechanism remains poorly understood. We have generated C9ORF72 knockdown mice to mimic C9-FTD/ALS patients haploinsufficiency and investigate the role of this loss of function in the pathogenesis. We found that decreasing C9ORF72 leads to anomalies of the autophagy/lysosomal pathway, cytoplasmic accumulation of TDP-43 and decreased synaptic density in the cortex. Knockdown mice also developed FTD-like behavioral deficits and mild motor phenotypes at a later stage. These findings show that C9ORF72 partial loss of function contributes to the damaging events leading to C9-FTD/ALS.

Published
2023
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8. Transient regulation of focal adhesion via Tensin3 is required for nascent oligodendrocyte differentiation

Author

Emeric Merour, Hatem Hmidan, Corentine Marie, Pierre-Henri Helou, Haiyang Lu, Antoine Potel, Jean-Baptiste Hure, Adrien Clavairoly, Yi Ping Shih, Salman Goudarzi, Sebastien Dussaud, Philippe Ravassard, Sassan Hafizi, Su Hao Lo, Bassem A Hassan, and Carlos Parras

Subjects
oligodendrocyte differentiation, tensin, oligodendroglial survival, immature oligodedrocyte marker, Medicine, Science, Biology (General), QH301-705.5
Abstract

The differentiation of oligodendroglia from oligodendrocyte precursor cells (OPCs) to complex and extensive myelinating oligodendrocytes (OLs) is a multistep process that involves large-scale morphological changes with significant strain on the cytoskeleton. While key chromatin and transcriptional regulators of differentiation have been identified, their target genes responsible for the morphological changes occurring during OL myelination are still largely unknown. Here, we show that the regulator of focal adhesion, Tensin3 (Tns3), is a direct target gene of Olig2, Chd7, and Chd8, transcriptional regulators of OL differentiation. Tns3 is transiently upregulated and localized to cell processes of immature OLs, together with integrin-β1, a key mediator of survival at this transient stage. Constitutive Tns3 loss of function leads to reduced viability in mouse and humans, with surviving knockout mice still expressing Tns3 in oligodendroglia. Acute deletion of Tns3 in vivo, either in postnatal neural stem cells (NSCs) or in OPCs, leads to a twofold reduction in OL numbers. We find that the transient upregulation of Tns3 is required to protect differentiating OPCs and immature OLs from cell death by preventing the upregulation of p53, a key regulator of apoptosis. Altogether, our findings reveal a specific time window during which transcriptional upregulation of Tns3 in immature OLs is required for OL differentiation likely by mediating integrin-β1 survival signaling to the actin cytoskeleton as OL undergo the large morphological changes required for their terminal differentiation.

Published
2022
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9. The Host Protein Aquaporin-9 is Required for Efficient Plasmodium falciparum Sporozoite Entry into Human Hepatocytes

Author

Nadia Amanzougaghene, Shahin Tajeri, Samir Yalaoui, Audrey Lorthiois, Valérie Soulard, Audrey Gego, Armelle Rametti, Véronica Risco-Castillo, Alicia Moreno, Maurel Tefit, Geert-Jan van Gemert, Robert W. Sauerwein, Jean-Christophe Vaillant, Philippe Ravassard, Jean-Louis Pérignon, Patrick Froissard, Dominique Mazier, and Jean-François Franetich

Subjects
Plasmodium falciparum, sporozoites, liver stage, hepatocytes, Aquaporin-9, CD81, Microbiology, QR1-502
Abstract

Hepatocyte invasion by Plasmodium sporozoites represents a promising target for innovative antimalarial therapy, but the molecular events mediating this process are still largely uncharacterized. We previously showed that Plasmodium falciparum sporozoite entry into hepatocytes strictly requires CD81. However, CD81-overexpressing human hepatoma cells remain refractory to P. falciparum infection, suggesting the existence of additional host factors necessary for sporozoite entry. Here, through differential transcriptomic analysis of human hepatocytes and hepatoma HepG2-CD81 cells, the transmembrane protein Aquaporin-9 (AQP9) was found to be among the most downregulated genes in hepatoma cells. RNA silencing showed that sporozoite invasion of hepatocytes requires AQP9 expression. AQP9 overexpression in hepatocytes increased their permissiveness to P. falciparum. Moreover, chemical disruption with the AQP9 inhibitor phloretin markedly inhibited hepatocyte infection. Our findings identify AQP9 as a novel host factor required for P. falciparum sporozoite hepatocyte-entry and indicate that AQP9 could be a potential therapeutic target.

Published
2021
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10. Pancreatic islet enhancer clusters enriched in type 2 diabetes risk-associated variants

Author

Pasquali, Lorenzo, Gaulton, Kyle J, Rodríguez-Seguí, Santiago A, Mularoni, Loris, Miguel-Escalada, Irene, Akerman, İldem, Tena, Juan J, Morán, Ignasi, Gómez-Marín, Carlos, van de Bunt, Martijn, Ponsa-Cobas, Joan, Castro, Natalia, Nammo, Takao, Cebola, Inês, García-Hurtado, Javier, Maestro, Miguel Angel, Pattou, François, Piemonti, Lorenzo, Berney, Thierry, Gloyn, Anna L, Ravassard, Philippe, Skarmeta, José Luis Gómez, Müller, Ferenc, McCarthy, Mark I, and Ferrer, Jorge

Subjects
Biological Sciences, Genetics, Prevention, Digestive Diseases, Cancer, Diabetes, Autoimmune Disease, Pancreatic Cancer, Rare Diseases, 2.1 Biological and endogenous factors, Aetiology, Metabolic and endocrine, Base Sequence, Chromatin, Chromatin Immunoprecipitation, Diabetes Mellitus, Type 2, Electrophoretic Mobility Shift Assay, Enhancer Elements, Genetic, Formaldehyde, Gene Expression Regulation, Gene Regulatory Networks, Genome-Wide Association Study, Humans, Islets of Langerhans, Molecular Sequence Data, Sequence Analysis, RNA, Transcription Factors, Web Browser, Medical and Health Sciences, Developmental Biology, Agricultural biotechnology, Bioinformatics and computational biology
Abstract

Type 2 diabetes affects over 300 million people, causing severe complications and premature death, yet the underlying molecular mechanisms are largely unknown. Pancreatic islet dysfunction is central in type 2 diabetes pathogenesis, and understanding islet genome regulation could therefore provide valuable mechanistic insights. We have now mapped and examined the function of human islet cis-regulatory networks. We identify genomic sequences that are targeted by islet transcription factors to drive islet-specific gene activity and show that most such sequences reside in clusters of enhancers that form physical three-dimensional chromatin domains. We find that sequence variants associated with type 2 diabetes and fasting glycemia are enriched in these clustered islet enhancers and identify trait-associated variants that disrupt DNA binding and islet enhancer activity. Our studies illustrate how islet transcription factors interact functionally with the epigenome and provide systematic evidence that the dysregulation of islet enhancers is relevant to the mechanisms underlying type 2 diabetes.

Published
2014

11. Neonatal diabetes mutations disrupt a chromatin pioneering function that activates the human insulin gene

Author

Ildem Akerman, Miguel Angel Maestro, Elisa De Franco, Vanessa Grau, Sarah Flanagan, Javier García-Hurtado, Gerhard Mittler, Philippe Ravassard, Lorenzo Piemonti, Sian Ellard, Andrew T. Hattersley, and Jorge Ferrer

Subjects
INS promoter, regulatory element, mouse model, neonatal diabetes, GLIS3, HIP, Biology (General), QH301-705.5
Abstract

Summary: Despite the central role of chromosomal context in gene transcription, human noncoding DNA variants are generally studied outside of their genomic location. This limits our understanding of disease-causing regulatory variants. INS promoter mutations cause recessive neonatal diabetes. We show that all INS promoter point mutations in 60 patients disrupt a CC dinucleotide, whereas none affect other elements important for episomal promoter function. To model CC mutations, we humanized an ∼3.1-kb region of the mouse Ins2 gene. This recapitulated developmental chromatin states and cell-specific transcription. A CC mutant allele, however, abrogated active chromatin formation during pancreas development. A search for transcription factors acting through this element revealed that another neonatal diabetes gene product, GLIS3, has a pioneer-like ability to derepress INS chromatin, which is hampered by the CC mutation. Our in vivo analysis, therefore, connects two human genetic defects in an essential mechanism for developmental activation of the INS gene.

Published
2021
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12. The Amyotrophic Lateral Sclerosis M114T PFN1 Mutation Deregulates Alternative Autophagy Pathways and Mitochondrial Homeostasis

Author

Elisa Teyssou, Laura Chartier, Delphine Roussel, Nirma D. Perera, Ivan Nemazanyy, Dominique Langui, Mélanie Albert, Thierry Larmonier, Safaa Saker, François Salachas, Pierre-François Pradat, Vincent Meininger, Philippe Ravassard, Francine Côté, Christian S. Lobsiger, Séverine Boillée, Bradley J. Turner, Danielle Seilhean, and Stéphanie Millecamps

Subjects
ALS, genetics, mutations, alternative autophagy, RAB9, mitochondrial homeostasis, Biology (General), QH301-705.5, Chemistry, QD1-999
Abstract

Mutations in profilin 1 (PFN1) have been identified in rare familial cases of Amyotrophic Lateral Sclerosis (ALS). PFN1 is involved in multiple pathways that could intervene in ALS pathology. However, the specific pathogenic role of PFN1 mutations in ALS is still not fully understood. We hypothesized that PFN1 could play a role in regulating autophagy pathways and that PFN1 mutations could disrupt this function. We used patient cells (lymphoblasts) or tissue (post-mortem) carrying PFN1 mutations (M114T and E117G), and designed experimental models expressing wild-type or mutant PFN1 (cell lines and novel PFN1 mice established by lentiviral transgenesis) to study the effects of PFN1 mutations on autophagic pathway markers. We observed no accumulation of PFN1 in the spinal cord of one E117G mutation carrier. Moreover, in patient lymphoblasts and transfected cell lines, the M114T mutant PFN1 protein was unstable and deregulated the RAB9-mediated alternative autophagy pathway involved in the clearance of damaged mitochondria. In vivo, motor neurons expressing M114T mutant PFN1 showed mitochondrial abnormalities. Our results demonstrate that the M114T PFN1 mutation is more deleterious than the E117G variant in patient cells and experimental models and suggest a role for the RAB9-dependent autophagic pathway in ALS.

Published
2022
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13. Multisensory control of multimodal behavior: do the legs know what the tongue is doing?

Author

Cushman, Jesse D, Aharoni, Daniel B, Willers, Bernard, Ravassard, Pascal, Kees, Ashley, Vuong, Cliff, Popeney, Briana, Arisaka, Katsushi, and Mehta, Mayank R

Subjects
Animals, Rats, Spatial Behavior, Maze Learning, Reward, Space Perception, Visual Perception, Male, General Science & Technology
Abstract

Understanding of adaptive behavior requires the precisely controlled presentation of multisensory stimuli combined with simultaneous measurement of multiple behavioral modalities. Hence, we developed a virtual reality apparatus that allows for simultaneous measurement of reward checking, a commonly used measure in associative learning paradigms, and navigational behavior, along with precisely controlled presentation of visual, auditory and reward stimuli. Rats performed a virtual spatial navigation task analogous to the Morris maze where only distal visual or auditory cues provided spatial information. Spatial navigation and reward checking maps showed experience-dependent learning and were in register for distal visual cues. However, they showed a dissociation, whereby distal auditory cues failed to support spatial navigation but did support spatially localized reward checking. These findings indicate that rats can navigate in virtual space with only distal visual cues, without significant vestibular or other sensory inputs. Furthermore, they reveal the simultaneous dissociation between two reward-driven behaviors.

Published
2013

14. Human pancreatic islet three-dimensional chromatin architecture provides insights into the genetics of type 2 diabetes

Author

Miguel-Escalada, Irene, Bonàs-Guarch, Silvia, Cebola, Inês, Ponsa-Cobas, Joan, Mendieta-Esteban, Julen, Atla, Goutham, Javierre, Biola M., Rolando, Delphine M. Y., Farabella, Irene, Morgan, Claire C., García-Hurtado, Javier, Beucher, Anthony, Morán, Ignasi, Pasquali, Lorenzo, Ramos-Rodríguez, Mireia, Appel, Emil V. R., Linneberg, Allan, Gjesing, Anette P., Witte, Daniel R., Pedersen, Oluf, Grarup, Niels, Ravassard, Philippe, Torrents, David, Mercader, Josep M., Piemonti, Lorenzo, Berney, Thierry, de Koning, Eelco J. P., Kerr-Conte, Julie, Pattou, François, Fedko, Iryna O., Groop, Leif, Prokopenko, Inga, Hansen, Torben, Marti-Renom, Marc A., Fraser, Peter, and Ferrer, Jorge

Published
2019
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18. The Amyotrophic Lateral Sclerosis M114T PFN1 Mutation Deregulates Alternative Autophagy Pathways and Mitochondrial Homeostasis

Author

Teyssou, E, Chartier, L, Roussel, D, Perera, ND, Nemazanyy, I, Langui, D, Albert, M, Larmonier, T, Saker, S, Salachas, F, Pradat, P-F, Meininger, V, Ravassard, P, Cote, F, Lobsiger, CS, Boillee, S, Turner, BJ, Seilhean, D, Millecamps, S, Teyssou, E, Chartier, L, Roussel, D, Perera, ND, Nemazanyy, I, Langui, D, Albert, M, Larmonier, T, Saker, S, Salachas, F, Pradat, P-F, Meininger, V, Ravassard, P, Cote, F, Lobsiger, CS, Boillee, S, Turner, BJ, Seilhean, D, and Millecamps, S

Abstract

Mutations in profilin 1 (PFN1) have been identified in rare familial cases of Amyotrophic Lateral Sclerosis (ALS). PFN1 is involved in multiple pathways that could intervene in ALS pathology. However, the specific pathogenic role of PFN1 mutations in ALS is still not fully understood. We hypothesized that PFN1 could play a role in regulating autophagy pathways and that PFN1 mutations could disrupt this function. We used patient cells (lymphoblasts) or tissue (post-mortem) carrying PFN1 mutations (M114T and E117G), and designed experimental models expressing wild-type or mutant PFN1 (cell lines and novel PFN1 mice established by lentiviral transgenesis) to study the effects of PFN1 mutations on autophagic pathway markers. We observed no accumulation of PFN1 in the spinal cord of one E117G mutation carrier. Moreover, in patient lymphoblasts and transfected cell lines, the M114T mutant PFN1 protein was unstable and deregulated the RAB9-mediated alternative autophagy pathway involved in the clearance of damaged mitochondria. In vivo, motor neurons expressing M114T mutant PFN1 showed mitochondrial abnormalities. Our results demonstrate that the M114T PFN1 mutation is more deleterious than the E117G variant in patient cells and experimental models and suggest a role for the RAB9-dependent autophagic pathway in ALS.

Published
2022

24. Human Liver Cells Expressing Albumin and Mesenchymal Characteristics Give Rise to Insulin-Producing Cells

Author

Irit Meivar-Levy, Tamar Sapir, Dana Berneman, Tal Weissbach, Sylvie Polak-Charcon, Philippe Ravassard, Andreas G. Tzakis, Eytan Mor, Camillo Ricordi, and Sarah Ferber

Subjects
Surgery, RD1-811
Abstract

Activation of the pancreatic lineage in the liver has been suggested as a potential autologous cell replacement therapy for diabetic patients. Transcription factors-induced liver-to-pancreas reprogramming has been demonstrated in numerous species both in vivo and in vitro. However, human-derived liver cells capable of acquiring the alternate pancreatic repertoire have never been characterized. It is yet unknown whether hepatic-like stem cells or rather adult liver cells give rise to insulin-producing cells. Using an in vitro experimental system, we demonstrate that proliferating adherent human liver cells acquire mesenchymal-like characteristics and a considerable level of cellular plasticity. However, using a lineage-tracing approach, we demonstrate that insulin-producing cells are primarily generated in cells enriched for adult hepatic markers that coexpress both albumin and mesenchymal markers. Taken together, our data suggest that adult human hepatic tissue retains a substantial level of developmental plasticity, which could be exploited in regenerative medicine approaches.

Published
2011
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26. Beta cells within single human islets originate from multiple progenitors.

Author

Raphaël Scharfmann, Xiangwei Xiao, Harry Heimberg, Jacques Mallet, and Philippe Ravassard

Subjects
Medicine, Science
Abstract

BackgroundIn both humans and rodents, glucose homeostasis is controlled by micro-organs called islets of Langerhans composed of beta cells, associated with other endocrine cell types. Most of our understanding of islet cell differentiation and morphogenesis is derived from rodent developmental studies. However, little is known about human islet formation. The lack of adequate experimental models has restricted the study of human pancreatic development to the histological analysis of different stages of pancreatic development. Our objective was to develop a new experimental model to (i) transfer genes into developing human pancreatic cells and (ii) validate gene transfer by defining the clonality of developing human islets.Methods and findingsIn this study, a unique model was developed combining ex vivo organogenesis from human fetal pancreatic tissue and cell type-specific lentivirus-mediated gene transfer. Human pancreatic progenitors were transduced with lentiviruses expressing GFP under the control of an insulin promoter and grafted to severe combined immunodeficient mice, allowing human beta cell differentiation and islet morphogenesis. By performing gene transfer at low multiplicity of infection, we created a chimeric graft with a subpopulation of human beta cells expressing GFP and found both GFP-positive and GFP-negative beta cells within single islets.ConclusionThe detection of both labeled and unlabeled beta cells in single islets demonstrates that beta cells present in a human islet are derived from multiple progenitors thus providing the first dynamic analysis of human islet formation during development. This human transgenic-like tool can be widely used to elucidate dynamic genetic processes in human tissue formation.

Published
2008
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33. Inhibition of Eph/ephrin interaction with the small molecule UniPR500 improves glucose tolerance in healthy and insulin-resistant mice

Author

Giorgio, C., primary, Incerti, M., additional, Pala, D., additional, Russo, S., additional, Chiodelli, P., additional, Rusnati, M., additional, Cantoni, A.M., additional, Di Lecce, R., additional, Barocelli, E., additional, Bertoni, S., additional, Ravassard, P., additional, Manenti, F., additional, Piemonti, L., additional, Ferlenghi, F., additional, Lodola, A., additional, and Tognolini, M., additional

Published
2019
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34. The HASTERlncRNA promoter is a cis-acting transcriptional stabilizer of HNF1A

Author

Beucher, Anthony, Miguel-Escalada, Irene, Balboa, Diego, De Vas, Matías G., Maestro, Miguel Angel, Garcia-Hurtado, Javier, Bernal, Aina, Gonzalez-Franco, Roser, Vargiu, Pierfrancesco, Heyn, Holger, Ravassard, Philippe, Ortega, Sagrario, and Ferrer, Jorge

Abstract

The biological purpose of long non-coding RNAs (lncRNAs) is poorly understood. Haploinsufficient mutations in HNF1A homeobox A (HNF1A), encoding a homeodomain transcription factor, cause diabetes mellitus. Here, we examine HASTER, the promoter of an lncRNA antisense to HNF1A. Using mouse and human models, we show that HASTERmaintains cell-specific physiological HNF1A concentrations through positive and negative feedback loops. Pancreatic β cells from Hastermutant mice consequently showed variegated HNF1A silencing or overexpression, resulting in hyperglycaemia. HASTER-dependent negative feedback was essential to prevent HNF1A binding to inappropriate genomic regions. We demonstrate that the HASTERpromoter DNA, rather than the lncRNA, modulates HNF1Apromoter–enhancer interactions in cisand thereby regulates HNF1Atranscription. Our studies expose a cis-regulatory element that is unlike classic enhancers or silencers, it stabilizes the transcription of its target gene and ensures the fidelity of a cell-specific transcription factor program. They also show that disruption of a mammalian lncRNA promoter can cause diabetes mellitus.

Published
2022
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35. The EndoC-βH1 cell line is a valid model of human beta cells and applicable for screenings to identify novel drug target candidates

Author

Tsonkova, V.G., Sand, F.W., Wolf, X.A., Grunnet, L.G., Ringgaard, Anne Kirstine, Ingvorsen, C., Winkel, L., Kalisz, M., Dalgaard, K., Bruun, C., Fels, J.J., Helgstrand, C., Hastrup, S., Öberg, F.K., Vernet, Erik, Sandrini, M.P.B., Shaw, A.C., Jessen, C., Grønborg, M., Hald, J., Willenbrock, H., Madsen, D., Wernersson, R., Hansson, L., Jensen, J.N., Plesner, A., Alanentalo, T., Petersen, M.B.K., Grapin-Botton, A., Honoré, C., Ahnfelt-Rønne, J., Hecksher-Sørensen, J., Ravassard, P., Madsen, O.D., Rescan, C., Frogne, T., Tsonkova, V.G., Sand, F.W., Wolf, X.A., Grunnet, L.G., Ringgaard, Anne Kirstine, Ingvorsen, C., Winkel, L., Kalisz, M., Dalgaard, K., Bruun, C., Fels, J.J., Helgstrand, C., Hastrup, S., Öberg, F.K., Vernet, Erik, Sandrini, M.P.B., Shaw, A.C., Jessen, C., Grønborg, M., Hald, J., Willenbrock, H., Madsen, D., Wernersson, R., Hansson, L., Jensen, J.N., Plesner, A., Alanentalo, T., Petersen, M.B.K., Grapin-Botton, A., Honoré, C., Ahnfelt-Rønne, J., Hecksher-Sørensen, J., Ravassard, P., Madsen, O.D., Rescan, C., and Frogne, T.

Published
2018

36. Human Pancreatic beta Cell lncRNAs Control Cell-Specific Regulatory Networks

Author

Akerman, I, Tu, ZD, Beucher, A, Rolando, DMY, Sauty-Colace, C, Benazra, M, Nakic, N, Yang, JL, Wang, H, Pasquali, L, Moran, I, Garcia-Hurtado, J, Castro, N, Gonzalez-Franco, R, Stewart, AF, Bonner, C, Piemonti, L, Berney, T, Groop, L, Kerr-Conte, J, Pattou, F, Argmann, C, Schadt, E, Ravassard, P, and Ferrer, J

Abstract

Recent studies have uncovered thousands of long non-coding RNAs (lncRNAs) in human pancreatic beta cells. beta cell lncRNAs are often cell type specific and exhibit dynamic regulation during differentiation or upon changing glucose concentrations. Although these features hint at a role of lncRNAs in beta cell gene regulation and diabetes, the function of beta cell lncRNAs remains largely unknown. In this study, we investigated the function of beta cell-specific lncRNAs and transcription factors using transcript knockdowns and co-expression network analysis. This revealed lncRNAs that function in concert with transcription factors to regulate b cell-specific transcriptional networks. We further demonstrate that the lncRNA PLUTO affects local 3D chromatin structure and transcription of PDX1, encoding a key b cell transcription factor, and that both PLUTO and PDX1 are downregulated in islets from donors with type 2 diabetes or impaired glucose tolerance. These results implicate lncRNAs in the regulation of beta cell-specific transcription factor networks.

Published
2017

37. MiR-132 controls pancreatic beta cell proliferation and survival through Pten/Akt/Foxo3 signaling.

Author

Mziaut, Hassan, Henniger, Georg, Ganss, Katharina, Hempel, Sebastian, Wolk, Steffen, McChord, Johanna, Chowdhury, Kamal, Ravassard, Philippe, Knoch, Klaus-Peter, Krautz, Christian, Weitz, Jürgen, Grützmann, Robert, Pilarsky, Christian, Solimena, Michele, and Kersting, Stephan

Abstract

MicroRNAs (miRNAs) play an integral role in maintaining beta cell function and identity. Deciphering their targets and precise role, however, remains challenging. In this study, we aimed to identify miRNAs and their downstream targets involved in the regeneration of islet beta cells following partial pancreatectomy in mice. RNA from laser capture microdissected (LCM) islets of partially pancreatectomized and sham-operated mice were profiled with microarrays to identify putative miRNAs implicated in beta cell regeneration. Altered expression of the selected miRNAs, including miR-132 , was verified by RT-PCR. Potential targets of miR-132 were selected through bioinformatic data mining. Predicted miR-132 targets were validated for their changed RNA, protein expression levels, and signaling upon miR-132 knockdown and/or overexpression in mouse MIN6 and human EndoC-βH1 insulinoma cells. The ability of miR-132 to foster beta cell proliferation in vivo was further assessed in pancreatectomized miR-132 −/− and control mice. Partial pancreatectomy significantly increased the number of BrdU+/insulin+ islet cells. Microarray profiling revealed that 14 miRNAs, including miR-132 and -141 , were significantly upregulated in the LCM islets of the partially pancreatectomized mice compared to the LCM islets of the control mice. In the same comparison, miR-760 was the only downregulated miRNA. The changed expression of these miRNAs in the islets of the partially pancreatectomized mice was confirmed by RT-PCR only in the case of miR-132 and -141. Based on previous knowledge of its function, we focused our attention on miR-132. Downregulation of miR-132 reduced the proliferation of MIN6 cells while enhancing the levels of pro-apoptotic cleaved caspase-9. The opposite was observed in miR-132 overexpressing MIN6 cells. Microarray profiling, RT-PCR, and immunoblotting of the latter cells demonstrated their downregulated expression of Pten with concomitant increased levels of pro-proliferative factors phospho- Akt and phospho- Creb and inactivation of pro-apoptotic Foxo3a via its phosphorylation. Downregulation of Pten was further confirmed in the LCM islets of pancreatectomized mice compared to the sham-operated mice. Moreover, overexpression of miR-132 correlated with increased proliferation of EndoC-βH1 cells. The regeneration of beta cells following partial pancreatectomy was lower in the miR-132/212 −/− mice than the control littermates. This study provides compelling evidence about the critical role of miR-132 for the regeneration of mouse islet beta cells through the downregulation of its target Pten. Hence, the miR-132/Pten/Akt/Foxo3 signaling pathway may represent a suitable target to enhance beta cell mass. • miR-132 is induced in mouse islets upon partial pancreatectomy. • miR-132 promotes regeneration of β-cells in vivo following partial pancreatectomy. • miR-132 fosters in vitro proliferation/survival through Pten / Akt / Foxo3 signaling. • Downstream targets of miR-132 were identified in pancreatic β-cells. • miR-132 −/− mice have impaired β-cell proliferation. [ABSTRACT FROM AUTHOR]

Published
2020
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38. Culture, differentiation, and transduction of mouse E12.5 pancreatic spheres: an in vitromodel for the secondary transition of pancreas development

Author

Huijbregts, Lukas, Aiello, Virginie, Soggia, Andrea, Ravassard, Philippe, Rachdi, Latif, Scharfmann, Raphaël, and Albagli, Olivier

Abstract

ABSTRACTDuring the secondary transition of rodent pancreatic development, mainly between E12.5 and E15.5 in mice, exocrine and endocrine populations differentiate from pancreatic progenitors. Here we describe an experimental system for its study in vitro. First, we show that spheres derived from dissociated E12.5 mouse pancreases differentiate within 7 days into most pancreatic exocrine and endocrine cell types, including beta cells. The proportion and spatial repartition of the different endocrine populations mirror those observed during normal development. Thus, dissociation and culture do not impair the developmental events affecting pancreatic progenitors during the secondary transition. Moreover, dissociated cells from mouse E12.5 pancreas were transduced with ecotropic MLV-based retroviral vectors or, though less efficiently, with a mixture of ALV(A)-based retroviral vectors and gesicles containing the TVA (Tumor Virus A) receptor. As an additional improvement, we also created a transgenic mouse line expressing TVA under the control of the 4.5 kB pdx1promoter (pdx1-TVA). We demonstrate that pancreatic progenitors from dissociated pdx1-TVA pancreas can be specifically transduced by ALV(A)-based retroviral vectors. Using this model, we expressed an activated mutant of the YAP transcriptional co-activator in pancreatic progenitors. These experiments indicate that deregulated YAP activity reduces endocrine and exocrine differentiation in the resulting spheres, confirming and extending previously published data. Thus, our experimental model recapitulates in vitrothe crucial developmental decisions arising at the secondary transition and provides a convenient tool to study their genetic control.

Published
2021
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40. Pancreatic β-cell transcriptome analysis reveals dynamically regulated, tissue-specific and diabetes-associated long non-coding RNAs

Author

Morán I, Akerman I, van de Bunt M, Xie R, Benazra M, Nammo T, Arnes L, Nakić N, García Hurtado J, Rodríguez Seguí S, Pasquali P, Sauty Colace C, Beucher A, Scharfmann R, van Arensbergen J, Johnson PR, Berry A, Lee C, Harkins, T, Gmyr v, Pattou F, Kerr Conte J, Berney T, Hanley L, Gloyn A, Sussel L, Langman L, Braymnan KL, Sander M, McCarthy M, Ravassard P, Ferrer J., PIEMONTI , LORENZO, Morán, I, Akerman, I, van de Bunt, M, Xie, R, Benazra, M, Nammo, T, Arnes, L, Nakić, N, García Hurtado, J, Rodríguez Seguí, S, Pasquali, P, Sauty Colace, C, Beucher, A, Scharfmann, R, van Arensbergen, J, Johnson, Pr, Berry, A, Lee, C, Harkins, T, Gmyr, V, Pattou, F, Kerr Conte, J, Piemonti, Lorenzo, Berney, T, Hanley, L, Gloyn, A, Sussel, L, Langman, L, Braymnan, Kl, Sander, M, Mccarthy, M, Ravassard, P, and Ferrer, J.

Published
2012

42. Dev Cell

Author

Al-Hasani K, Pfeifer A, Courtney M, Ben-Othman N, Gjernes E, Vieira A, Druelle N, Avolio F, Ravassard P, Leuckx G, Lacas-Gervais S, Ambrosetti D, Benizri E, Hecksher-Sorensen J, Gounon P, Ferrer J, Gradwohl G, Heimberg H, Mansouri A, and Collombat P.

Published
2013

43. Inducible VEGF Expression by Human Embryonic Stem Cell-Derived Mesenchymal Stromal Cells Reduces the Minimal Islet Mass Required to Reverse Diabetes

Author

Hajizadeh-Saffar, E., primary, Tahamtani, Y., additional, Aghdami, N., additional, Azadmanesh, K., additional, Habibi-Anbouhi, M., additional, Heremans, Y., additional, De Leu, N., additional, Heimberg, H., additional, Ravassard, P., additional, Shokrgozar, M. A., additional, and Baharvand, H., additional

Published
2015
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48. Differentiation of Sendai Virus-Reprogrammed iPSC into β Cells, Compared with Human Pancreatic Islets and Immortalized β Cell Line

Author

Pellegrini, Silvia, Manenti, Fabio, Chimienti, Raniero, Nano, Rita, Ottoboni, Linda, Ruffini, Francesca, Martino, Gianvito, Ravassard, Philippe, Piemonti, Lorenzo, and Sordi, Valeria

Abstract

Background: New sources of insulin-secreting cells are strongly in demand for treatment of diabetes. Induced pluripotent stem cells (iPSCs) have the potential to generate insulin-producing cells (iβ). However, the gene expression profile and secretory function of iβ still need to be validated in comparison with native β cells.Methods: Two clones of human iPSCs, reprogrammed from adult fibroblasts through integration-free Sendai virus, were differentiated into iβ and compared with donor pancreatic islets and EndoC-βH1, an immortalized human β cell line.Results: Both clones of iPSCs differentiated into insulin+cells with high efficiency (up to 20%). iβ were negative for pluripotency markers (Oct4, Sox2, Ssea4) and positive for Pdx1, Nkx6.1, Chromogranin A, PC1/3, insulin, glucagon and somatostatin. iβ basally secreted C-peptide, glucagon and ghrelin and released insulin in response either to increasing concentration of glucose or a depolarizing stimulus. The comparison revealed that iβ are remarkably similar to donor derived islets in terms of gene and protein expression profile and similar level of heterogeneity. The ability of iβ to respond to glucose instead was more related to that of EndoC-βH1.Discussion: We demonstrated that insulin-producing cells generated from iPSCs recapitulate fundamental gene expression profiles and secretory function of native human β cells.

Published
2018
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49. CREM and ICER are differentially implicated in trans-synaptic induction of tyrosine hydroxylase gene expression in adrenal medulla and sympathetic ganglia of rat

Author

Trocmé, C., Ravassard, P., Sassone-Corsi, P., Mallet, J., Faucon Biguet, N., Laboratoire de Génétique Moléculaire de la Neurotransmission et des Processus Neurodégénératifs [APHP Pitié-Salpêtrière] (LGN), Université Pierre et Marie Curie - Paris 6 (UPMC)-CHU Pitié-Salpêtrière [AP-HP], Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Sorbonne Université (SU)-Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS), Institut de Génétique et de Biologie Moléculaire et Cellulaire (IGBMC), and Université de Strasbourg (UNISTRA)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS)

Subjects
Male, Neurons, Binding Sites, Ganglia, Sympathetic, Reserpine, Adrenergic Uptake Inhibitors, Transcription, Genetic, Tyrosine 3-Monooxygenase, [SDV]Life Sciences [q-bio], Immunohistochemistry, Gene Expression Regulation, Enzymologic, Rats, Cyclic AMP Response Element Modulator, DNA-Binding Proteins, Rats, Sprague-Dawley, Repressor Proteins, Adrenal Medulla, Synapses, Animals, Protein Isoforms, Promoter Regions, Genetic
Abstract

International audience; Reserpine treatment leads to a trans-synaptic increase of the tyrosine hydroxylase (TH) gene transcription rate, mRNA and protein levels in catecholaminergic tissues including the adrenal medulla (AM) and the superior cervical ganglia (SCG). The TPA-responsive element plays an important role in the trans-synaptically-induced transcription of the TH gene in the AM, whereas it does not appear to be involved in the SCG (Trocmé et al. [1997] J. Neurosci. Res. 48:489-498). In this study, we show that another regulatory sequence of the TH proximal promoter, the cAMP-responsive element (CRE), binds different factors in the AM and in the SCG. To elucidate the dynamics of promoter regulation a complete time course analysis was conducted. Reserpine treatment enhances, between 1 hr and 8 hr after the injection, the expression and the binding of the repressor ICER in the AM, whereas in the SCG it enhances the binding of CREM factors. These results suggest that the mechanisms mediating trans-synaptic induction of the TH gene are different in the AM and SCG. The interplay between positive and negative transcription factors and their kinetics of action are responsive of the long-term regulation of the TH gene.

Published
2001

50. A human beta cell line with drug inducible excision of immortalizing transgenes.

Author

Benazra, Marion, Lecomte, Marie-José, Colace, Claire, Müller, Andreas, Machado, Cécile, Pechberty, Severine, Bricout-Neveu, Emilie, Grenier-Godard, Maud, Solimena, Michele, Scharfmann, Raphaël, Czernichow, Paul, and Ravassard, Philippe

Abstract

Objectives Access to immortalized human pancreatic beta cell lines that are phenotypically close to genuine adult beta cells, represent a major tool to better understand human beta cell physiology and develop new therapeutics for Diabetes. Here we derived a new conditionally immortalized human beta cell line, EndoC-βH3 in which immortalizing transgene can be efficiently removed by simple addition of tamoxifen. Methods We used lentiviral mediated gene transfer to stably integrate a tamoxifen inducible form of CRE (CRE-ERT2) into the recently developed conditionally immortalized EndoC βH2 line. The resulting EndoC-βH3 line was characterized before and after tamoxifen treatment for cell proliferation, insulin content and insulin secretion. Results We showed that EndoC-βH3 expressing CRE-ERT2 can be massively amplified in culture. We established an optimized tamoxifen treatment to efficiently excise the immortalizing transgenes resulting in proliferation arrest. In addition, insulin expression raised by 12 fold and insulin content increased by 23 fold reaching 2 μg of insulin per million cells. Such massive increase was accompanied by enhanced insulin secretion upon glucose stimulation. We further observed that tamoxifen treated cells maintained a stable function for 5 weeks in culture. Conclusions EndoC βH3 cell line represents a powerful tool that allows, using a simple and efficient procedure, the massive production of functional non-proliferative human beta cells. Such cells are close to genuine human beta cells and maintain a stable phenotype for 5 weeks in culture. [ABSTRACT FROM AUTHOR]

Published
2015
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