Differentiated cells can be reprogrammed to embryonic stem cell-like cells called induced pluripotent stem cells (iPSCs), in which the natural developmental differentiation process is reversed. It is unclear whether the multi-lineage cells can be isolated and identified during reprogramming. In the current study, we detected the expression of lineage markers, isolated neural lineages, and identified the related microRNAs during iPSC formation. Our results demonstrated that a neuroectoderm appeared earlier than mesoderm and definitive endoderm before forming colonies when mouse embryonic fibroblasts were subjected to iPSC formation using transcription factors (TFs). On day 3, the cells expressed Sox1 and Nestin and had ultrastructure consistent with the transition to identity neural germ layer lineage. Fluorescence-activated cell sorting analysis revealed a peak (40%) in neural progenitor marker-positive cells. When subsequently cultured in a neural precursor cell medium, these cells proliferated slowly, became round and aggregated, generating into neurons and glia. Genome-wide microRNA (miRNA) analysis identified 45 differentially regulated miRNAs. Molecular network analysis demonstrated that these miRNAs validated 6,047 experimental mRNA targets. The GO functional annotation analysis of mRNA targets revealed that most genes were related to neurogenesis, such as growth cone, neuronal cell body, neuron projection, and cell junction synapse. The network of protein-protein interactions was observed, which demonstrated that key nodes of neural lineage reprogramming-associated targets were Sall1, Foxa2, Nf2, Ctnnb1, Shh, and Bmpr1a. Therefore, these data suggested that TFs can drive the reprogramming of somatic cells towards a pluripotent state via neuroectoderm. Moreover, the neural lineage reprogramming system can address how miRNAs influence their target sites.
Keywords: Induced pluripotent stem cells; MicroRNAs; Neural lineage-specific progenitors; Neuroectoderm.
© 2022. The Author(s), under exclusive licence to Springer Nature B.V.