Generation of otic progenitors from pluripotent stem cells requires precise timed regulation of signalling pathways, including bone morphogenetic protein 4 (BMP4). Because endogenous levels of BMP4 vary between cell lines, the optimal concentration of exogenous BMP4 must be determined individually to achieve efficient otic differentiation. Three different human induced pluripotent stem cell lines (hiPSCs) underwent ectodermal differentiation to early otic induction stages in the presence of various concentrations of BMP4 (0-5 ng/ml). Differentiation outcomes were assessed by immunofluorescence staining, and quantitative gene expression analysis. Raman microscopy was used to characterize biochemical differences between hiPSC differentiated cultures exposed to different BMP4 concentration. We observed distinct ectodermal fate were after 8 days of in vitro differentiation depending on BMP4 concentration, including neural, non-neural/otic ectoderm and surface epidermal fates. The proportion of PAX2-otic progenitors varied substantially between cell lines and culture conditions, ranging from approximately 9% to 77%. Raman spectroscopy revealed concentration dependent spectral differences and enabled discrimination between differentiating condition within individual hiPSC lines. Analysis of Raman spectral features indicated differences in nucleic acid, lipid, protein, and collagen associated signatures across culture conditions and cell lines. These findings demonstrate that Raman microscopy provides a non-destructive, label-free method for monitoring molecular changes associated with early otic differentiation. By complementing conventional molecular and immunocytochemical analyses, Raman spectroscopy offers a valuable tool for optimizing BMP4-mediated otic induction protocols and improving the reproducibility of stem cell-based strategies for inner ear research and regenerative medicine.
VERET, D., CHUNG, K., Le, P. D., ROUILLON, L., ELIAS, E., DESOUTTER, A., SALEHI, H., ZINE, A.
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