Modeling Rett Syndrome With Human Patient-Specific Forebrain Organoids

Ana Rita Gomes; Tiago G. Fernandes; Sandra H. Vaz; Teresa P. Silva; Evguenia P. Bekman; Sara Xapelli; Sofia Duarte; Mehrnaz Ghazvini; Joost Gribnau; Alysson R. Muotri; Cleber A. Trujillo; Ana M. Sebastião; Joaquim M.S. Cabral; Maria Margarida Diogo

doi:10.3389/fcell.2020.610427

Modeling Rett Syndrome With Human Patient-Specific Forebrain Organoids

Ana Rita Gomes, Tiago G. Fernandes, Sandra H. Vaz, Teresa P. Silva, Evguenia P. Bekman, Sara Xapelli, Sofia Duarte, Mehrnaz Ghazvini, Joost Gribnau, Alysson R. Muotri, Cleber A. Trujillo, Ana M. Sebastião, Joaquim M.S. Cabral, Maria Margarida Diogo

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Engineering brain organoids from human induced pluripotent stem cells (hiPSCs) is a powerful tool for modeling brain development and neurological disorders. Rett syndrome (RTT), a rare neurodevelopmental disorder, can greatly benefit from this technology, since it affects multiple neuronal subtypes in forebrain sub-regions. We have established dorsal and ventral forebrain organoids from control and RTT patient-specific hiPSCs recapitulating 3D organization and functional network complexity. Our data revealed a premature development of the deep-cortical layer, associated to the formation of TBR1 and CTIP2 neurons, and a lower expression of neural progenitor/proliferative cells in female RTT dorsal organoids. Moreover, calcium imaging and electrophysiology analysis demonstrated functional defects of RTT neurons. Additionally, assembly of RTT dorsal and ventral organoids revealed impairments of interneuron’s migration. Overall, our models provide a better understanding of RTT during early stages of neural development, demonstrating a great potential for personalized diagnosis and drug screening.

Idioma original	???core.languages.en_GB???
Número do artigo	610427
Revista	Frontiers in Cell and Developmental Biology
Volume	8
DOIs	https://doi.org/10.3389/fcell.2020.610427
Estado da publicação	???researchoutput.status.published??? - 10 dez. 2020
Publicado externamente	Sim

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Gomes, A. R., Fernandes, T. G., Vaz, S. H., Silva, T. P., Bekman, E. P., Xapelli, S., Duarte, S., Ghazvini, M., Gribnau, J., Muotri, A. R., Trujillo, C. A., Sebastião, A. M., Cabral, J. M. S., & Diogo, M. M. (2020). Modeling Rett Syndrome With Human Patient-Specific Forebrain Organoids. Frontiers in Cell and Developmental Biology, 8, Artigo 610427. https://doi.org/10.3389/fcell.2020.610427

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title = "Modeling Rett Syndrome With Human Patient-Specific Forebrain Organoids",

abstract = "Engineering brain organoids from human induced pluripotent stem cells (hiPSCs) is a powerful tool for modeling brain development and neurological disorders. Rett syndrome (RTT), a rare neurodevelopmental disorder, can greatly benefit from this technology, since it affects multiple neuronal subtypes in forebrain sub-regions. We have established dorsal and ventral forebrain organoids from control and RTT patient-specific hiPSCs recapitulating 3D organization and functional network complexity. Our data revealed a premature development of the deep-cortical layer, associated to the formation of TBR1 and CTIP2 neurons, and a lower expression of neural progenitor/proliferative cells in female RTT dorsal organoids. Moreover, calcium imaging and electrophysiology analysis demonstrated functional defects of RTT neurons. Additionally, assembly of RTT dorsal and ventral organoids revealed impairments of interneuron{\textquoteright}s migration. Overall, our models provide a better understanding of RTT during early stages of neural development, demonstrating a great potential for personalized diagnosis and drug screening.",

keywords = "Rett syndrome, disease modeling, forebrain, human induced pluripotent stem cells, neurodevelopmental disorders, organoids",

author = "Gomes, {Ana Rita} and Fernandes, {Tiago G.} and Vaz, {Sandra H.} and Silva, {Teresa P.} and Bekman, {Evguenia P.} and Sara Xapelli and Sofia Duarte and Mehrnaz Ghazvini and Joost Gribnau and Muotri, {Alysson R.} and Trujillo, {Cleber A.} and Sebasti{\~a}o, {Ana M.} and Cabral, {Joaquim M.S.} and Diogo, {Maria Margarida}",

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year = "2020",

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doi = "10.3389/fcell.2020.610427",

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AU - Gomes, Ana Rita

AU - Fernandes, Tiago G.

AU - Vaz, Sandra H.

AU - Silva, Teresa P.

AU - Bekman, Evguenia P.

AU - Xapelli, Sara

AU - Duarte, Sofia

AU - Ghazvini, Mehrnaz

AU - Gribnau, Joost

AU - Muotri, Alysson R.

AU - Trujillo, Cleber A.

AU - Sebastião, Ana M.

AU - Cabral, Joaquim M.S.

AU - Diogo, Maria Margarida

PY - 2020/12/10

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N2 - Engineering brain organoids from human induced pluripotent stem cells (hiPSCs) is a powerful tool for modeling brain development and neurological disorders. Rett syndrome (RTT), a rare neurodevelopmental disorder, can greatly benefit from this technology, since it affects multiple neuronal subtypes in forebrain sub-regions. We have established dorsal and ventral forebrain organoids from control and RTT patient-specific hiPSCs recapitulating 3D organization and functional network complexity. Our data revealed a premature development of the deep-cortical layer, associated to the formation of TBR1 and CTIP2 neurons, and a lower expression of neural progenitor/proliferative cells in female RTT dorsal organoids. Moreover, calcium imaging and electrophysiology analysis demonstrated functional defects of RTT neurons. Additionally, assembly of RTT dorsal and ventral organoids revealed impairments of interneuron’s migration. Overall, our models provide a better understanding of RTT during early stages of neural development, demonstrating a great potential for personalized diagnosis and drug screening.

AB - Engineering brain organoids from human induced pluripotent stem cells (hiPSCs) is a powerful tool for modeling brain development and neurological disorders. Rett syndrome (RTT), a rare neurodevelopmental disorder, can greatly benefit from this technology, since it affects multiple neuronal subtypes in forebrain sub-regions. We have established dorsal and ventral forebrain organoids from control and RTT patient-specific hiPSCs recapitulating 3D organization and functional network complexity. Our data revealed a premature development of the deep-cortical layer, associated to the formation of TBR1 and CTIP2 neurons, and a lower expression of neural progenitor/proliferative cells in female RTT dorsal organoids. Moreover, calcium imaging and electrophysiology analysis demonstrated functional defects of RTT neurons. Additionally, assembly of RTT dorsal and ventral organoids revealed impairments of interneuron’s migration. Overall, our models provide a better understanding of RTT during early stages of neural development, demonstrating a great potential for personalized diagnosis and drug screening.

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Modeling Rett Syndrome With Human Patient-Specific Forebrain Organoids

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