Sebastian Knöbel scite author profile

We report that the efficiency of reprogramming human somatic cells to induced pluripotent stem cells (hiPSCs) can be dramatically improved in a microfluidic environment. Microliter-volume confinement resulted in a 50-fold increase in efficiency over traditional reprogramming by delivery of synthetic mRNAs encoding transcription factors. In these small volumes, extracellular components of the TGF-β and other signaling pathways exhibited temporal regulation that appears critical to acquisition of pluripotency. The high quality and purity of the resulting hiPSCs (μ-hiPSCs) allowed direct differentiation into functional hepatocyte- and cardiomyocyte-like cells in the same platform without additional expansion.

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Generation of pancreatic β cells from CD177+ anterior definitive endoderm

Mahaddalkar

Scheibner

Pfluger

et al. 2020

Nat Biotechnol

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Morphogen gradients pattern the endoderm and specify liver and pancreatic progenitors in vivo. However, if specified organ progenitors can be identified and isolated during human pluripotent stem cell (hPSC) differentiation is unknown. Here, we report the identification of two novel surface markers, CD177/NB1 glycoprotein and inducible T cell co-stimulatory ligand CD275/ICOSL, that isolate specified organ progenitors from seemingly homogenous endoderm differentiations in vitro. These markers allow assessing anterior definitive endoderm (ADE) patterning and specification in human revealing different morphogen requirements and induction efficiencies for the generation of specified pancreatic and liver progenitors using known and novel differentiation paradigms. Furthermore, molecular profiling and characterisation of CD177 + and CD275 + ADE subpopulations identified differential expression of signalling components and inverse activation of canonical and non-canonical WNT signalling. This signalling milieu specifies CD275 + ADE progenitors towards the liver fate. In contrast, CD177 + ADE progenitors express and synthesize the secreted WNT, NODAL and BMP antagonist CERBERUS1 and are specified towards the pancreatic fate. Strikingly, isolated CD177 + ADE progenitors differentiate more homogenously into pancreatic progenitors as well as into functionally, more mature and glucose-responsive β-like cells in vitro, when compared to bulk endoderm differentiations. Overall, the identification of novel surface markers allowed us to isolate, monitor and understand human organ progenitor formation for the improved differentiation of β-like cells from hPSC.

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Isolation and characterization of living primary astroglial cells using the new GLAST‐specific monoclonal antibody ACSA‐1

Jungblut

Tiveron

Barral

et al. 2012

Glia

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Astrocytes show large morphological and functional heterogeneity and are involved in many aspects of neural function. Progress in defining astrocyte subpopulations has been hampered by the lack of a suitable antibody for their direct detection and isolation. Here, we describe a new monoclonal antibody, ACSA-1, which was generated by immunization of GLAST1 knockout mice. The antibody specifically detects an extracellular epitope of the astrocyte-specific L-glutamate/L-aspartate transporter GLAST (EAAT1, Slc1a3). As shown by immunohistochemistry, immunocytochemistry, and flow cytometry, ACSA-1 was cross-reactive for mouse, human, and rat. It labeled virtually all astrocytes positive for GFAP, GS, BLBP, RC2, and Nestin, including protoplastic, fibrous, and reactive astrocytes as well as Bergmann glia, Müller glia, and radial glia. Oligodendrocytes, microglia, neurons, and neuronal progenitors were negative for ACSA-1. Using an immunomagnetic approach, we established a method for the isolation of GLAST-positive cells with high purity. Binding of the antibody to GLAST and subsequent sorting of GLAST-positive cells neither interfered with cellular glutamate transport nor compromised astrocyte viability in vitro. The ACSA-1 antibody is not only a valuable tool to identify and track astrocytes by immunostaining, but also provides the possibility of separation and further analysis of pure astrocytes.

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IAP-Based Cell Sorting Results in Homogeneous Transplantable Dopaminergic Precursor Cells Derived from Human Pluripotent Stem Cells

et al. 2017

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SummaryHuman pluripotent stem cell (hPSC)-derived mesencephalic dopaminergic (mesDA) neurons can relieve motor deficits in animal models of Parkinson's disease (PD). Clinical translation of differentiation protocols requires standardization of production procedures, and surface-marker-based cell sorting is considered instrumental for reproducible generation of defined cell products. Here, we demonstrate that integrin-associated protein (IAP) is a cell surface marker suitable for enrichment of hPSC-derived mesDA progenitor cells. Immunomagnetically sorted IAP+ mesDA progenitors showed increased expression of ventral midbrain floor plate markers, lacked expression of pluripotency markers, and differentiated into mature dopaminergic (DA) neurons in vitro. Intrastriatal transplantation of IAP+ cells sorted at day 16 of differentiation in a rat model of PD resulted in functional recovery. Grafts from sorted IAP+ mesDA progenitors were more homogeneous in size and DA neuron density. Thus, we suggest IAP-based sorting for reproducible prospective enrichment of mesDA progenitor cells in clinical cell replacement strategies.

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Disruption of the latent transforming growth factor-β binding protein-1 gene causes alteration in facial structure and influences TGF-β bioavailability

Drews

Knöbel

Moser

et al. 2008

Biochimica et Biophysica Acta (BBA) - Molecular Cell Research

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Latent transforming growth factor-beta binding proteins are a family of extracellular matrix proteins comprising four isoforms (LTBP-1, -2, -3, -4) with different structures, tissue expression patterns and affinity for TGF-beta. So far, respective knockout models have highlighted some essential functions for LTBP-2, LTBP-3 and LTBP-4, while the physiological significance of LTBP-1 is only superficially known. Here we report for the first time the generation and characterization of a mouse model lacking both the long and short LTBP-1 isoform. Surprisingly, respective mice are viable and fertile. However, detailed X-ray analysis of the skull revealed a modified facial profile. In addition, the gene disruption induces a reduced biological activity of TGF-beta that became evident in an experimental model of hepatic fibrogenesis in which the LTBP-1 knockout animals were less prone to hepatic fibrogenesis. Furthermore, comparative cDNA microarray gene expression profiling of cultured hepatic stellate cells confirmed that respective nulls were less receptive to cellular activation and transdifferentiation into myofibroblasts. Therefore, we conclude that LTBP-1 has essential functions in the control of TGF-beta activation.

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