Hanna Wolling scite author profile

Human pluripotent stem cells can be differentiated in vitro into cardiomyocytes (CMs) but the molecular mechanisms behind this process are still not fully understood. In particular, the identification of morphogens remained elusive because the mass spectrometry-based identification of secreted proteins from cell culture supernatants is impeded by high levels of albumin present in common differentiation media. An albumin-free cardiomyogenic differentiation medium is established in this study and applied for secretomics at seven different time points during in vitro differentiation. By this analysis 4832 proteins are identified with 1802 being significantly altered during differentiation and 431 of these are annotated as secreted. Numerous extrinsic components of Wnt, TGFβ, Activin A, Nodal, BMP, or FGF signaling pathways are quantitatively assessed during differentiation. Notably, the abundance of pathway agonists is generally lower compared to the respective antagonists but their curves of progression over timer were rather similar. It is hypothesized that TGFβ, Activin A, and Nodal signaling are turned down shortly upon the initiation of cardiac differentiation whereas BMP signaling is switched on. Wnt and FGF signaling peaks between d0 and d3 of differentiation, and interestingly, Activin A and TGFβ signaling seem to be reactivated at the cardiac progenitor stages and/or in early CMs.

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Chemically defined and xenogeneic-free differentiation of human pluripotent stem cells into definitive endoderm in 3D culture

Diekmann

Wolling

Dettmer

et al. 2019

Sci Rep

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In vitro differentiation of human pluripotent stem cells (hPSCs) into definitive endoderm (DE) represents a key step towards somatic cells of lung, liver and pancreas. For future clinical applications, mass production of differentiated cells at chemically defined conditions and free of xenogeneic substances is envisioned. In this study we adapted our previously published two-dimensional (2D) DE induction protocol to three-dimensional (3D) static suspension culture in the absence of the xenogeneic extracellular matrix Matrigel. Next, fetal calf serum and bovine serum albumin present in the standard medium were replaced by a custom-made and xeno-free B-27. This yielded in a chemically defined and xenogeneic-free 3D culture protocol for differentiation of hPSCs into DE at efficiencies similar to standard 2D conditions. This novel protocol successfully worked with different hPSC lines including hESCs and hiPSCs maintained in two different stem cell media prior to differentiation. DE cells obtained by our novel BSA-free 3D protocol could be further differentiated into PDX1- or NKX6.1-expressing pancreatic progenitor cells. Notably, upon DE differentiation, we also identified a CXCR4+/NCAM+/EpCAMlow cell population with reduced DE marker gene expression. These CXCR4+/NCAM+/EpCAMlow cells emerge as a result of Wnt/beta-catenin hyperactivation via elevated CHIR-99021 concentrations and likely represent misspecified DE.

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Chemisch-definierte und xenogen-freie Differenzierung humaner embryonaler Stammzellen in endodermale und pankreatische Vorläuferzellen

Diekmann

Wolling

Büttner

et al. 2017

Diabetologie und Stoffwechsel

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Hanna Wolling

Quantitative Secretomics Reveals Extrinsic Signals Involved in Human Pluripotent Stem Cell Cardiomyogenesis

Chemically defined and xenogeneic-free differentiation of human pluripotent stem cells into definitive endoderm in 3D culture

Chemisch-definierte und xenogen-freie Differenzierung humaner embryonaler Stammzellen in endodermale und pankreatische Vorläuferzellen

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