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Establishment of stable iPS-derived human neural stem cell lines suitable for cell therapies

Authors :
Rosati, J
Ferrari, D
Altieri, F
Tardivo, S
Ricciolini, C
Fusilli, C
Zalfa, C
Profico, D
Pinos, F
Bernardini, L
Torres, B
Manni, I
Piaggio, G
Binda, E
Copetti, M
Lamorte, G
Mazza, T
Carella, M
Gelati, M
Valente, E
Simeone, A
Vescovi, A
Rosati, Jessica
Ferrari, Daniela
Altieri, Filomena
Tardivo, Silvia
Ricciolini, Claudia
Fusilli, Caterina
Zalfa, Cristina
Profico, Daniela C.
Pinos, Francesca
Bernardini, Laura
Torres, Barbara
Manni, Isabella
Piaggio, Giulia
Binda, Elena
Copetti, Massimiliano
Lamorte, Giuseppe
Mazza, Tommaso
Carella, Massimo
Gelati, Maurizio
Valente, Enza Maria
Simeone, Antonio
Vescovi, Angelo L.
Rosati, J
Ferrari, D
Altieri, F
Tardivo, S
Ricciolini, C
Fusilli, C
Zalfa, C
Profico, D
Pinos, F
Bernardini, L
Torres, B
Manni, I
Piaggio, G
Binda, E
Copetti, M
Lamorte, G
Mazza, T
Carella, M
Gelati, M
Valente, E
Simeone, A
Vescovi, A
Rosati, Jessica
Ferrari, Daniela
Altieri, Filomena
Tardivo, Silvia
Ricciolini, Claudia
Fusilli, Caterina
Zalfa, Cristina
Profico, Daniela C.
Pinos, Francesca
Bernardini, Laura
Torres, Barbara
Manni, Isabella
Piaggio, Giulia
Binda, Elena
Copetti, Massimiliano
Lamorte, Giuseppe
Mazza, Tommaso
Carella, Massimo
Gelati, Maurizio
Valente, Enza Maria
Simeone, Antonio
Vescovi, Angelo L.
Publication Year :
2018

Abstract

Establishing specific cell lineages from human induced pluripotent stem cells (hiPSCs) is vital for cell therapy approaches in regenerative medicine, particularly for neurodegenerative disorders. While neural precursors have been induced from hiPSCs, the establishment of hiPSC-derived human neural stem cells (hiNSCs), with characteristics that match foetal hNSCs and abide by cGMP standards, thus allowing clinical applications, has not been described. We generated hiNSCs by a virus-free technique, whose properties recapitulate those of the clinical-grade hNSCs successfully used in an Amyotrophic Lateral Sclerosis (ALS) phase I clinical trial. Ex vivo, hiNSCs critically depend on exogenous mitogens for stable self-renewal and amplification and spontaneously differentiate into astrocytes, oligodendrocytes and neurons upon their removal. In the brain of immunodeficient mice, hiNSCs engraft and differentiate into neurons and glia, without tumour formation. These findings now warrant the establishment of clinical-grade, autologous and continuous hiNSC lines for clinical trials in neurological diseases such as Huntington’s, Parkinson’s and Alzheimer’s, among others.

Details

Database :
OAIster
Notes :
English
Publication Type :
Electronic Resource
Accession number :
edsoai.on1358907025
Document Type :
Electronic Resource

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