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264 results on '"Canals, Josep M."'

1. Translating cell therapies for neurodegenerative diseases: Huntington’s disease as a model disorder

Author

Rosser, Anne E, members, on behalf of SC4HD, Busse, Monica E, Gray, William P, Badin, Romina Aron, Perrier, Anselme L, Wheelock, Vicki, Cozzi, Emanuele, Martin, Unai Perpiña, Salado-Manzano, Cristina, Mills, Laura J, Drew, Cheney, Goldman, Steven A, Canals, Josep M, and Thompson, Leslie M

Subjects
Huntington's Disease, Orphan Drug, Genetics, Brain Disorders, Regenerative Medicine, Rare Diseases, Neurodegenerative, Biotechnology, Neurosciences, Development of treatments and therapeutic interventions, 5.2 Cellular and gene therapies, Neurological, Animals, Brain, Cell- and Tissue-Based Therapy, Humans, Huntington Disease, Neurodegenerative Diseases, cell therapy, stem cells, clinical translation, neurodegeneration, Huntington's, Huntington’s disease, Medical and Health Sciences, Psychology and Cognitive Sciences, Neurology & Neurosurgery
Abstract

There has been substantial progress in the development of regenerative medicine strategies for CNS disorders over the last decade, with progression to early clinical studies for some conditions. However, there are multiple challenges along the translational pipeline, many of which are common across diseases and pertinent to multiple donor cell types. These include defining the point at which the preclinical data are sufficiently compelling to permit progression to the first clinical studies; scaling-up, characterization, quality control and validation of the cell product; design, validation and approval of the surgical device; and operative procedures for safe and effective delivery of cell product to the brain. Furthermore, clinical trials that incorporate principles of efficient design and disease-specific outcomes are urgently needed (particularly for those undertaken in rare diseases, where relatively small cohorts are an additional limiting factor), and all processes must be adaptable in a dynamic regulatory environment. Here we set out the challenges associated with the clinical translation of cell therapy, using Huntington's disease as a specific example, and suggest potential strategies to address these challenges. Huntington's disease presents a clear unmet need, but, importantly, it is an autosomal dominant condition with a readily available gene test, full genetic penetrance and a wide range of associated animal models, which together mean that it is a powerful condition in which to develop principles and test experimental therapeutics. We propose that solving these challenges in Huntington's disease would provide a road map for many other neurological conditions. This white paper represents a consensus opinion emerging from a series of meetings of the international translational platforms Stem Cells for Huntington's Disease and the European Huntington's Disease Network Advanced Therapies Working Group, established to identify the challenges of cell therapy, share experience, develop guidance and highlight future directions, with the aim to expedite progress towards therapies for clinical benefit in Huntington's disease.

Published
2022

2. Soluble mutant huntingtin drives early human pathogenesis in Huntington’s disease

Author

Miguez, Andrés, Gomis, Cinta, Vila, Cristina, Monguió-Tortajada, Marta, Fernández-García, Sara, Bombau, Georgina, Galofré, Mireia, García-Bravo, María, Sanders, Phil, Fernández-Medina, Helena, Poquet, Blanca, Salado-Manzano, Cristina, Roura, Santiago, Alberch, Jordi, Segovia, José Carlos, Allen, Nicholas D., Borràs, Francesc E., and Canals, Josep M.

Published
2023
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6. Developmental alterations in Huntington's disease neural cells and pharmacological rescue in cells and mice

Author

Lim, Ryan G, Salazar, Lisa L, Wilton, Daniel K, King, Alvin R, Stocksdale, Jennifer T, Sharifabad, Delaram, Lau, Alice L, Stevens, Beth, Reidling, Jack C, Winokur, Sara T, Casale, Malcolm S, Thompson, Leslie M, Pardo, Monica, Gerardo Garcia Diaz-Barriga, A, Straccia, Marco, Sanders, Phil, Alberch, Jordi, Canals, Josep M, Kaye, Julia A, Dunlap, Mariah, Jo, Lisa, May, Hanna, Mount, Elliot, Anderson-Bergman, Cliff, Haston, Kelly, Finkbeiner, Steven, Kedaigle, Amanda J, Gipson, Theresa A, Yildirim, Ferah, Ng, Christopher W, Milani, Pamela, Housman, David E, Fraenkel, Ernest, Allen, Nicholas D, Kemp, Paul J, Atwal, Ranjit Singh, Biagioli, Marta, Gusella, James F, MacDonald, Marcy E, Akimov, Sergey S, Arbez, Nicolas, Stewart, Jacqueline, Ross, Christopher A, Mattis, Virginia B, Tom, Colton M, Ornelas, Loren, Sahabian, Anais, Lenaeus, Lindsay, Mandefro, Berhan, Sareen, Dhruv, and Svendsen, Clive N

Subjects
Biomedical and Clinical Sciences, Neurosciences, Rare Diseases, Regenerative Medicine, Brain Disorders, Neurodegenerative, Stem Cell Research - Induced Pluripotent Stem Cell - Human, Huntington's Disease, Stem Cell Research - Nonembryonic - Human, Stem Cell Research, Stem Cell Research - Induced Pluripotent Stem Cell, Aetiology, 2.1 Biological and endogenous factors, Neurological, Animals, Basic Helix-Loop-Helix Transcription Factors, Cells, Cultured, Cognitive Dysfunction, Corpus Striatum, Epigenomics, Gene Expression, Gene Expression Profiling, Gene Knockdown Techniques, Histones, Humans, Huntingtin Protein, Huntington Disease, Induced Pluripotent Stem Cells, Isoxazoles, Mice, Mice, Transgenic, Nerve Tissue Proteins, Neurogenesis, Neurons, Peptides, Signal Transduction, Thiophenes, HD iPSC Consortium, Psychology, Cognitive Sciences, Neurology & Neurosurgery, Biological psychology
Abstract

Neural cultures derived from Huntington's disease (HD) patient-derived induced pluripotent stem cells were used for 'omics' analyses to identify mechanisms underlying neurodegeneration. RNA-seq analysis identified genes in glutamate and GABA signaling, axonal guidance and calcium influx whose expression was decreased in HD cultures. One-third of gene changes were in pathways regulating neuronal development and maturation. When mapped to stages of mouse striatal development, the profiles aligned with earlier embryonic stages of neuronal differentiation. We observed a strong correlation between HD-related histone marks, gene expression and unique peak profiles associated with dysregulated genes, suggesting a coordinated epigenetic program. Treatment with isoxazole-9, which targets key dysregulated pathways, led to amelioration of expanded polyglutamine repeat-associated phenotypes in neural cells and of cognitive impairment and synaptic pathology in HD model R6/2 mice. These data suggest that mutant huntingtin impairs neurodevelopmental pathways that could disrupt synaptic homeostasis and increase vulnerability to the pathologic consequence of expanded polyglutamine repeats over time.

Published
2017

11. Mutant huntingtin oligomers drive early human pathogenesis in Huntington’s disease

Author

Miguez, Andrés, primary, Gomis, Cinta, additional, Vila, Cristina, additional, Monguió-Tortajada, Marta, additional, Fernández-García, Sara, additional, Bombau, Georgina, additional, Galofré, Mireia, additional, García-Bravo, María, additional, Sanders, Phil, additional, Fernández-Medina, Helena, additional, Poquet, Blanca, additional, Salado-Manzano, Cristina, additional, Roura, Santiago, additional, Alberch, Jordi, additional, Segovia, José Carlos, additional, Allen, Nicholas D., additional, Borràs, Francesc E., additional, and Canals, Josep M., additional

Published
2022
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15. Aberrant epigenome in iPSC‐derived dopaminergic neurons from Parkinson's disease patients

Author

Fernández‐Santiago, Rubén, Carballo‐Carbajal, Iria, Castellano, Giancarlo, Torrent, Roger, Richaud, Yvonne, Sánchez‐Danés, Adriana, Vilarrasa‐Blasi, Roser, Sánchez‐Pla, Alex, Mosquera, José Luis, Soriano, Jordi, López‐Barneo, José, Canals, Josep M, Alberch, Jordi, Raya, Ángel, Vila, Miquel, Consiglio, Antonella, Martín‐Subero, José I, Ezquerra, Mario, and Tolosa, Eduardo

Published
2015
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18. Translating cell therapies for neurodegenerative diseases:Huntington's disease as a model disorder

Author

Rosser, Anne E., Busse, Monica E., Gray, William P., Badin, Romina Aron, Perrier, Anselme L., Wheelock, Vicki, Cozzi, Emanuele, Martin, Unai Perpina, Salado-Manzano, Cristina, Mills, Laura J., Drew, Cheney, Goldman, Steven A., Canals, Josep M., Thompson, Leslie M., Rosser, Anne E., Busse, Monica E., Gray, William P., Badin, Romina Aron, Perrier, Anselme L., Wheelock, Vicki, Cozzi, Emanuele, Martin, Unai Perpina, Salado-Manzano, Cristina, Mills, Laura J., Drew, Cheney, Goldman, Steven A., Canals, Josep M., and Thompson, Leslie M.

Abstract

There has been substantial progress in the development of regenerative medicine strategies for CNS disorders over the last decade, with progression to early clinical studies for some conditions. However, there are multiple challenges along the translational pipeline, many of which are common across diseases and pertinent to multiple donor cell types. These include defining the point at which the preclinical data are sufficiently compelling to permit progression to the first clinical studies; scaling-up, characterization, quality control and validation of the cell product; design, validation and approval of the surgical device; and operative procedures for safe and effective delivery of cell product to the brain. Furthermore, clinical trials that incorporate principles of efficient design and disease-specific outcomes are urgently needed (particularly for those undertaken in rare diseases, where relatively small cohorts are an additional limiting factor), and all processes must be adaptable in a dynamic regulatory environment. Here we set out the challenges associated with the clinical translation of cell therapy, using Huntington's disease as a specific example, and suggest potential strategies to address these challenges. Huntington's disease presents a clear unmet need, but, importantly, it is an autosomal dominant condition with a readily available gene test, full genetic penetrance and a wide range of associated animal models, which together mean that it is a powerful condition in which to develop principles and test experimental therapeutics. We propose that solving these challenges in Huntington's disease would provide a road map for many other neurological conditions. This white paper represents a consensus opinion emerging from a series of meetings of the international translational platforms Stem Cells for Huntington's Disease and the European Huntington's Disease Network Advanced Therapies Working Group, established to identify the challenges of cell th

Published
2022

20. Additional file 3 of Human embryonic mesenchymal lung-conditioned medium promotes differentiation to myofibroblast and loss of stemness phenotype in lung adenocarcinoma cell lines

Author

Canals, Jordi, Navarro, Alfons, Vila, Cristina, Canals, Josep M., D��az, Tania, Acosta-Plasencia, Melissa, Cros-Font, Coral��, Han, Bing, He, Yangyi, and Monz��, Mariano

Subjects
integumentary system
Abstract

Additional file 3 : Figure S3. Scratch wound healing assay in A549 cells cultured in hEML-CM. a At 6 h, the cells differentiate and migrate to the center of the scratch wound. b At 24 h and c 48 h, the cells continue to migrate but there is no cell growth to heal the wound.

Published
2022
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21. Additional file 1 of Human embryonic mesenchymal lung-conditioned medium promotes differentiation to myofibroblast and loss of stemness phenotype in lung adenocarcinoma cell lines

Author

Canals, Jordi, Navarro, Alfons, Vila, Cristina, Canals, Josep M., D��az, Tania, Acosta-Plasencia, Melissa, Cros-Font, Coral��, Han, Bing, He, Yangyi, and Monz��, Mariano

Abstract

Additional file 1 : Figure S1. Human embryonic lung. a Confocal image of human embryonic lung in the pseudoglandular stage (E9). b Detail showing intensive positive staining for E-cadherin in epithelial cells. c Detail showing positive staining for vimentin in mesenchymal cells. The mesenchymal cells were then isolated and cultured for the preparation of the hEML-CM.

Published
2022
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22. Additional file 2 of Human embryonic mesenchymal lung-conditioned medium promotes differentiation to myofibroblast and loss of stemness phenotype in lung adenocarcinoma cell lines

Author

Canals, Jordi, Navarro, Alfons, Vila, Cristina, Canals, Josep M., D��az, Tania, Acosta-Plasencia, Melissa, Cros-Font, Coral��, Han, Bing, He, Yangyi, and Monz��, Mariano

Abstract

Additional file 2 : Figure S2. Morphological study at 48 h after neutralizing TGF-��1 in A549 and H1299 cultured in T-CM and hEML-CM. When neutralizing antibody was used the morphological changes were considerably reduced in the hEML-CM condition.

Published
2022
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23. Additional file 4 of Human embryonic mesenchymal lung-conditioned medium promotes differentiation to myofibroblast and loss of stemness phenotype in lung adenocarcinoma cell lines

Author

Canals, Jordi, Navarro, Alfons, Vila, Cristina, Canals, Josep M., D��az, Tania, Acosta-Plasencia, Melissa, Cros-Font, Coral��, Han, Bing, He, Yangyi, and Monz��, Mariano

Abstract

Additional file 4 : Figure S4. Complete distance matrix heat map including all anlayzed samples.

Published
2022
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25. B01 In vitro study of neurodevelopment in huntington’s disease

Author

Sanders, Phil, primary, Abbas, Waseem, additional, Esteve-Codina, Anna, additional, Rodriguez-Esteban, Gustavo, additional, Bombau, Georgina, additional, Galofré, Mireia, additional, Honrubia, Andrea, additional, Heyn, Holger, additional, Radeva, Petia, additional, and Canals, Josep M, additional

Published
2021
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27. Cell Therapy for Huntington's Disease:Learning from Failure

Author

Rosser, Anne E., Busse, Monica, Badin, Romina Aron, Canals, Josep M., Wheelock, Vicki, Perrier, Anselme L., Gray, William, Thompson, Leslie, Goldman, Steven, Rosser, Anne E., Busse, Monica, Badin, Romina Aron, Canals, Josep M., Wheelock, Vicki, Perrier, Anselme L., Gray, William, Thompson, Leslie, and Goldman, Steven

Published
2021

28. Disease‐specific phenotypes in dopamine neurons from human iPS‐based models of genetic and sporadic Parkinson's disease

Author

Sánchez‐Danés, Adriana, Richaud‐Patin, Yvonne, Carballo‐Carbajal, Iria, Jiménez‐Delgado, Senda, Caig, Carles, Mora, Sergio, Di Guglielmo, Claudia, Ezquerra, Mario, Patel, Bindiben, Giralt, Albert, Canals, Josep M., Memo, Maurizio, Alberch, Jordi, López‐Barneo, José, Vila, Miquel, Cuervo, Ana Maria, Tolosa, Eduard, Consiglio, Antonella, and Raya, Angel

Published
2012
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30. Helios modulates the maturation of a CA1 neuronal subpopulation required for spatial memory formation

Author

Giralt, Albert, Brito, Verónica, Pardo, Mònica, Rubio, Sara E., Marion-Poll, Lucile, Martín-Ibáñez, Raquel, Zamora-Moratalla, Alfonsa, Bosch, Carles, Ballesteros, Jesús J, Blasco, Esther, García-Torralba, Aida, Pascual, Marta, Pumarola i Batlle, Martí, Alberch, Jordi, Ginés, Silvia, Martín, Eduardo D, Segovia, José, Soriano, Eduardo, Canals, Josep M., Giralt, Albert, Brito, Verónica, Pardo, Mònica, Rubio, Sara E., Marion-Poll, Lucile, Martín-Ibáñez, Raquel, Zamora-Moratalla, Alfonsa, Bosch, Carles, Ballesteros, Jesús J, Blasco, Esther, García-Torralba, Aida, Pascual, Marta, Pumarola i Batlle, Martí, Alberch, Jordi, Ginés, Silvia, Martín, Eduardo D, Segovia, José, Soriano, Eduardo, and Canals, Josep M.

Abstract

Currently, molecular, electrophysiological and structural studies delineate several neural subtypes in the hippocampus. However, the precise developmental mechanisms that lead to this diversity are still unknown. Here we show that alterations in a concrete hippocampal neuronal subpopulation during development specifically affect hippocampal-dependent spatial memory. We observed that the genetic deletion of the transcription factor Helios in mice, which is specifically expressed in developing hippocampal calbindin-positive CA1 pyramidal neurons (CB-CA1-PNs), induces adult alterations affecting spatial memory. In the same mice, CA3-CA1 synaptic plasticity and spine density and morphology in adult CB-CA1-PNs were severely compromised. RNAseq experiments in developing hippocampus identified an aberrant increase on the Visinin-like protein 1 (VSNL1) expression in the hippocampi devoid of Helios. This aberrant increase on VSNL1 levels was localized in the CB-CA1-PNs. Normalization of VSNL1 levels in CB-CA1-PNs devoid of Helios rescued their spine loss in vitro. Our study identifies a novel and specific developmental molecular pathway involved in the maturation and function of a CA1 pyramidal neuronal subtype.

Published
2020

31. Cystamine and cysteamine increase brain levels of BDNF in Huntington disease via HSJ1b and transglutaminase

Author

Borrell-Pages, Maria, Canals, Josep M., Cordelieres, Fabrice P., Parker, Alex J., Pineda, Jose R., Grange, Ghislaine, Bryson, Elzbieta A., Guillermier, Martine, Hirsch, Etienne, Hantraye, Philippe, Cheetham, Michael E., Neri, Christian, Alberch, Jordi, Brouillet, Emmanuel, Saudou, Frederic, and Humbert, Sandrine

Subjects
Cysteamine -- Research, Huntington's chorea -- Research, Medical research, Medicine, Experimental
Abstract

There is no treatment for the neurodegenerative disorder Huntington disease (HD). Cystamine is a candidate drug; however, the mechanisms by which it operates remain unclear. We show here that cystamine [...]

Published
2006

32. CART19-BE-01: A Multicenter Trial of ARI-0001 Cell Therapy in Patients with CD19+ Relapsed/Refractory Malignancies

Author

Ortíz-Maldonado, Valentín, primary, Rives, Susana, additional, Castellà, Maria, additional, Alonso-Saladrigues, Anna, additional, Benítez-Ribas, Daniel, additional, Caballero-Baños, Miguel, additional, Baumann, Tycho, additional, Cid, Joan, additional, Garcia-Rey, Enric, additional, Llanos, Cristina, additional, Torrebadell, Montserrat, additional, Villamor, Neus, additional, Giné, Eva, additional, Díaz-Beyá, Marina, additional, Guardia, Laia, additional, Montoro, Mercedes, additional, Català, Albert, additional, Faura, Anna, additional, González, E. Azucena, additional, Español-Rego, Marta, additional, Klein-González, Nela, additional, Alsina, Laia, additional, Castro, Pedro, additional, Jordan, Iolanda, additional, Fernández, Sara, additional, Ramos, Federico, additional, Suñé, Guillermo, additional, Perpiñá, Unai, additional, Canals, Josep M., additional, Lozano, Miquel, additional, Trias, Esteve, additional, Scalise, Andrea, additional, Varea, Sara, additional, Sáez-Peñataro, Joaquín, additional, Torres, Ferran, additional, Calvo, Gonzalo, additional, Esteve, Jordi, additional, Urbano-Ispizua, Álvaro, additional, Juan, Manel, additional, and Delgado, Julio, additional

Published
2021
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35. Cell Banking of HEK293T cell line for clinical-grade lentiviral particles manufacturing

Author

Perpiña, Unai, primary, Herranz, Cristina, additional, Martin-Ibañez, Raquel, additional, Boronat, Anna, additional, Chiappe, Felipe, additional, Monforte, Verónica, additional, Orpella-Arecet, Gemma, additional, González, Ester, additional, Olive, Myriam, additional, Castella, Maria, additional, Suñe, Guillermo, additional, Urbano, Alvaro, additional, Delgado, Julio, additional, Juan, Manel, additional, and Canals, Josep M., additional

Published
2020
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36. In vivoprogressive degeneration of Huntington’s disease patient-derived neurons reveals human-specific pathological phenotypes

Author

Miguez, Andrés, primary, Fernández-García, Sara, additional, Monguió-Tortajada, Marta, additional, Bombau, Georgina, additional, Galofré, Mireia, additional, García-Bravo, María, additional, Vila, Cristina, additional, Sanders, Phil, additional, Fernández-Medina, Helena, additional, Poquet, Blanca, additional, Salado-Manzano, Cristina, additional, Roura, Santiago, additional, Alberch, Jordi, additional, Segovia, José Carlos, additional, Allen, Nicholas D., additional, Borràs, Francesc E., additional, and Canals, Josep M., additional

Published
2020
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39. Lack of Helios During Neural Development Induces Adult Schizophrenia-Like Behaviors Associated With Aberrant Levels of the TRIF-Recruiter Protein WDFY1

Author

Sancho-Balsells, Anna, primary, Brito, Veronica, additional, Fernández, Belissa, additional, Pardo, Mónica, additional, Straccia, Marco, additional, Ginés, Silvia, additional, Alberch, Jordi, additional, Hernández, Isabel, additional, Arranz, Belén, additional, Canals, Josep M., additional, and Giralt, Albert, additional

Published
2020
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40. Helios modulates the maturation of a CA1 neuronal subpopulation required for spatial memory formation

Author

Giralt, Albert, primary, Brito, Verónica, additional, Pardo, Monica, additional, Rubio, Sara E., additional, Marion-Poll, Lucile, additional, Martín-Ibáñez, Raquel, additional, Zamora-Moratalla, Alfonsa, additional, Bosch, Carles, additional, Ballesteros, Jesús J., additional, Blasco, Esther, additional, García-Torralba, Aida, additional, Pascual, Marta, additional, Pumarola, Martí, additional, Alberch, Jordi, additional, Ginés, Silvia, additional, Martín, Eduardo D., additional, Segovia, Jose, additional, Soriano, Eduardo, additional, and Canals, Josep M., additional

Published
2020
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43. Ikaros-1 couples cell cycle arrest of late striatal precursors with neurogenesis of enkephalinergic neurons

Author

Martín-Ibáñez, Raquel, Crespo, Empar, Urbán, Noelia, Sergent-Tanguy, Solène, Herranz, Cristina, Jaumot, Montserrat, Valiente, Manuel, Long, Jason E., Pineda, José Ramón, Andreu, Celia, Rubenstein, John L.R., Marín, Óscar, Georgopoulos, Katia, Mengod, Guadalupe, Fariñas, Isabel, Bachs, Oriol, Alberch, Jordi, and Canals, Josep M.

Published
2010
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44. Normal feeding behavior, body weight and leptin response require the neuropeptide Y Y2 receptor

Author

Naveiljan, Philippe, Hassani, Hessameh, Canals, Josep M., Ekstrand, A. Jonas, Larefalk, Asa, Chhajlani, Vijay, Arenas, Ernest, Gedda, Karin, Svensson, Lennart, Thoren, Peter, and Ernfors, Patrik

Subjects
Neuropeptide Y -- Research, Obesity -- Research
Abstract

The Y2 receptor for neuropeptide Y plays an inhibitory role in the regulation of food intake and body weight. Rats witih an inactive receptor ate more food, gained weight and had increased fat deposits.

Published
1999

45. Developmental alterations in Huntington's disease neural cells and pharmacological rescue in cells and mice

Author

HD iPSC Consortium, Lim, Ryan G, Salazar, Lisa L, Wilton, Daniel K, King, Alvin R, Stocksdale, Jennifer T, Sharifabad, Delaram, Lau, L Alice, Stevens, Beth, Reidling, Jack C, Winokur, Sara T, Casale, Malcolm S, Thompson, Leslie M, Pardo, Mónica, Díaz-Barriga, A Gerardo García, Straccia, Marco, Sanders, Phil, Alberch, Jordi, Canals, Josep M, Kaye, Julia A, Dunlap, Mariah, Jo, Lisa, May, Hanna, Mount, Elliot, Anderson-Bergman, Cliff, Haston, Kelly, Finkbeiner, Steven, Allen, Nicholas D, Kemp, Paul J, Atwal, Ranjit Singh, Biagioli, Marta, Gusella, James F, MacDonald, Marcy E, Akimov, Sergey S, Arbez, Nicolas, Stewart, Jacqueline, Ross, Christopher A, Mattis, Virginia B, Tom, Colton M, Ornelas, Loren, Sahabian, Anais, Lenaeus, Lindsay, Mandefro, Berhan, Sareen, Dhruv, Svendsen, Clive N, Kedaigle, Amanda Joy, Wasylenko, Theresa Anne, Yildirim, Ferah, Ng, Christopher W., Milani, Pamela, Housman, David E, Fraenkel, Ernest, Massachusetts Institute of Technology. Department of Biological Engineering, Massachusetts Institute of Technology. Department of Biology, Koch Institute for Integrative Cancer Research at MIT, Kedaigle, Amanda Joy, Wasylenko, Theresa Anne, Yildirim, Ferah, Ng, Christopher W., Milani, Pamela, Housman, David E, Fraenkel, Ernest, and Universitat de Barcelona

Subjects
Epigenomics, 0301 basic medicine, Huntingtin, Gene Expression, Transgenic, Histones, Mice, 0302 clinical medicine, Basic Helix-Loop-Helix Transcription Factors, Induced pluripotent stem cell, Cells, Cultured, Neurons, Huntingtin Protein, Cultured, General Neuroscience, Neurodegeneration, Glutamate receptor, Phenotype, Huntington Disease, Gene Knockdown Techniques, Signal Transduction, Cells, Neurogenesis, Induced Pluripotent Stem Cells, Mice, Transgenic, Nerve Tissue Proteins, Thiophenes, Huntington's chorea, Biology, Article, 03 medical and health sciences, Animals, Cognitive Dysfunction, Corpus Striatum, Gene Expression Profiling, Humans, Isoxazoles, Peptides, Neuroscience (all), Corea de Huntington, Huntington's disease, medicine, Epigenetics, medicine.disease, Embryonic stem cell, 030104 developmental biology, Neuroscience, 030217 neurology & neurosurgery
Abstract

Neural cultures derived from Huntington's disease (HD) patient-derived induced pluripotent stem cells were used for 'omics' analyses to identify mechanisms underlying neurodegeneration. RNA-seq analysis identified genes in glutamate and GABA signaling, axonal guidance and calcium influx whose expression was decreased in HD cultures. One-third of gene changes were in pathways regulating neuronal development and maturation. When mapped to stages of mouse striatal development, the profiles aligned with earlier embryonic stages of neuronal differentiation. We observed a strong correlation between HD-related histone marks, gene expression and unique peak profiles associated with dysregulated genes, suggesting a coordinated epigenetic program. Treatment with isoxazole-9, which targets key dysregulated pathways, led to amelioration of expanded polyglutamine repeat-associated phenotypes in neural cells and of cognitive impairment and synaptic pathology in HD model R6/2 mice. These data suggest that mutant huntingtin impairs neurodevelopmental pathways that could disrupt synaptic homeostasis and increase vulnerability to the pathologic consequence of expanded polyglutamine repeats over time., National Institutes of Health (U.S.) (Grant U54 NS091046), National Institutes of Health (U.S.) (Grant NS089076), National Institutes of Health (U.S.) (Grant R01GM089903)

Published
2017

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