An Example of Neuro-Glial Commitment and Differentiation of Muse Stem Cells Obtained from Patients with IIQSEC2/I-Related Neural Disorder: A Possible New Cell-Based Disease Model

Although adult stem cells may be useful for studying tissue-specific diseases, they cannot be used as a general model for investigating human illnesses given their limited differentiation potential. Multilineage-differentiating stress-enduring (Muse) stem cells, a SSEA3(+) cell population isolated f...

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Veröffentlicht in:	Cells (Basel, Switzerland) Switzerland), 2023-03, Vol.12 (7)
Hauptverfasser:	Al Sammarraie, Sura Hilal Ahmed, Aprile, Domenico, Meloni, Ilaria, Alessio, Nicola, Mari, Francesca, Manata, Marianna, Lo Rizzo, Caterina, Di Bernardo, Giovanni, Peluso, Gianfranco, Renieri, Alessandra, Galderisi, Umberto
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Sprache:	eng
Schlagworte:	Care and treatment Cell differentiation Health aspects Nervous system diseases Neuroglia Stem cells
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creator	Al Sammarraie, Sura Hilal Ahmed Aprile, Domenico Meloni, Ilaria Alessio, Nicola Mari, Francesca Manata, Marianna Lo Rizzo, Caterina Di Bernardo, Giovanni Peluso, Gianfranco Renieri, Alessandra Galderisi, Umberto
description	Although adult stem cells may be useful for studying tissue-specific diseases, they cannot be used as a general model for investigating human illnesses given their limited differentiation potential. Multilineage-differentiating stress-enduring (Muse) stem cells, a SSEA3(+) cell population isolated from mesenchymal stromal cells, fat, and skin fibroblasts, may be able to overcome that restriction. The Muse cells present in fibroblast cultures obtained from biopsies of patients’ skin may be differentiated into cells of interest for analyzing diseases. We isolated Muse stem cells from patients with an intellectual disability (ID) and mutations in the IQSEC2 gene (i.e., BRAG1 gene) and induced in vitro neuroglial differentiation to study cell commitment and the differentiation of neural lineages. The neuroglial differentiation of Muse cells revealed that IQSEC2 mutations may alter the self-renewal and lineage specification of stem cells. We observed a decrease in the percentage of SOX2 (+) neural stem cells and neural progenitors (i.e., SOX2+ and NESTIN+) in cultures obtained from Muse cells with the mutated IQSEC2 gene. The alteration in the number of stem cells and progenitors produced a bias toward the astrocytes’ differentiation. Our research demonstrates that Muse stem cells may represent a new cell-based disease model.
doi_str_mv	10.3390/cells12070977
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Multilineage-differentiating stress-enduring (Muse) stem cells, a SSEA3(+) cell population isolated from mesenchymal stromal cells, fat, and skin fibroblasts, may be able to overcome that restriction. The Muse cells present in fibroblast cultures obtained from biopsies of patients’ skin may be differentiated into cells of interest for analyzing diseases. We isolated Muse stem cells from patients with an intellectual disability (ID) and mutations in the IQSEC2 gene (i.e., BRAG1 gene) and induced in vitro neuroglial differentiation to study cell commitment and the differentiation of neural lineages. The neuroglial differentiation of Muse cells revealed that IQSEC2 mutations may alter the self-renewal and lineage specification of stem cells. We observed a decrease in the percentage of SOX2 (+) neural stem cells and neural progenitors (i.e., SOX2+ and NESTIN+) in cultures obtained from Muse cells with the mutated IQSEC2 gene. 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Multilineage-differentiating stress-enduring (Muse) stem cells, a SSEA3(+) cell population isolated from mesenchymal stromal cells, fat, and skin fibroblasts, may be able to overcome that restriction. The Muse cells present in fibroblast cultures obtained from biopsies of patients’ skin may be differentiated into cells of interest for analyzing diseases. We isolated Muse stem cells from patients with an intellectual disability (ID) and mutations in the IQSEC2 gene (i.e., BRAG1 gene) and induced in vitro neuroglial differentiation to study cell commitment and the differentiation of neural lineages. The neuroglial differentiation of Muse cells revealed that IQSEC2 mutations may alter the self-renewal and lineage specification of stem cells. We observed a decrease in the percentage of SOX2 (+) neural stem cells and neural progenitors (i.e., SOX2+ and NESTIN+) in cultures obtained from Muse cells with the mutated IQSEC2 gene. The alteration in the number of stem cells and progenitors produced a bias toward the astrocytes’ differentiation. Our research demonstrates that Muse stem cells may represent a new cell-based disease model.</abstract><pub>MDPI AG</pub><doi>10.3390/cells12070977</doi></addata></record>
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subjects	Care and treatment Cell differentiation Health aspects Nervous system diseases Neuroglia Stem cells
title	An Example of Neuro-Glial Commitment and Differentiation of Muse Stem Cells Obtained from Patients with IIQSEC2/I-Related Neural Disorder: A Possible New Cell-Based Disease Model
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