AI Article Synopsis
- Human pluripotent stem cells (hPSCs) are essential for disease modeling and cell therapy, with neural stem cells (NSCs) being key for neural lineage production.
- Current NSC derivation methods are inefficient and labor-intensive, often requiring time-consuming processes.
- This study introduces a novel serum-free medium that rapidly induces primitive NSCs from hPSCs in just 7 days, allowing for efficient expansion and differentiation into various neuron types and glial cells, paving the way for scalable clinical applications.
Article Abstract
Human pluripotent stem cells (hPSCs), including human embryonic stem cells and human induced pluripotent stem cells, are unique cell sources for disease modeling, drug discovery screens, and cell therapy applications. The first step in producing neural lineages from hPSCs is the generation of neural stem cells (NSCs). Current methods of NSC derivation involve the time-consuming, labor-intensive steps of an embryoid body generation or coculture with stromal cell lines that result in low-efficiency derivation of NSCs. In this study, we report a highly efficient serum-free pluripotent stem cell neural induction medium that can induce hPSCs into primitive NSCs (pNSCs) in 7 days, obviating the need for time-consuming, laborious embryoid body generation or rosette picking. The pNSCs expressed the neural stem cell markers Pax6, Sox1, Sox2, and Nestin; were negative for Oct4; could be expanded for multiple passages; and could be differentiated into neurons, astrocytes, and oligodendrocytes, in addition to the brain region-specific neuronal subtypes GABAergic, dopaminergic, and motor neurons. Global gene expression of the transcripts of pNSCs was comparable to that of rosette-derived and human fetal-derived NSCs. This work demonstrates an efficient method to generate expandable pNSCs, which can be further differentiated into central nervous system neurons and glia with temporal, spatial, and positional cues of brain regional heterogeneity. This method of pNSC derivation sets the stage for the scalable production of clinically relevant neural cells for cell therapy applications in good manufacturing practice conditions.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3808201 | PMC |
| http://dx.doi.org/10.5966/sctm.2013-0080 | DOI Listing |
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