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End date: 2024 × Start date: 2020 × Version: publishedVersion × Subject: gene expression × WGL Institute: IPHT ×

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    A versatile and customizable low-cost 3D-printed open standard for microscopic imaging
    ([London] : Nature Publishing Group UK, 2020) Diederich, Benedict; Lachmann, René; Carlstedt, Swen; Marsikova, Barbora; Wang, Haoran; Uwurukundo, Xavier; Mosig, Alexander S.; Heintzmann, Rainer
    Modern microscopes used for biological imaging often present themselves as black boxes whose precise operating principle remains unknown, and whose optical resolution and price seem to be in inverse proportion to each other. With UC2 (You. See. Too.) we present a low-cost, 3D-printed, open-source, modular microscopy toolbox and demonstrate its versatility by realizing a complete microscope development cycle from concept to experimental phase. The self-contained incubator-enclosed brightfield microscope monitors monocyte to macrophage cell differentiation for seven days at cellular resolution level (e.g. 2 μm). Furthermore, by including very few additional components, the geometry is transferred into a 400 Euro light sheet fluorescence microscope for volumetric observations of a transgenic Zebrafish expressing green fluorescent protein (GFP). With this, we aim to establish an open standard in optics to facilitate interfacing with various complementary platforms. By making the content and comprehensive documentation publicly available, the systems presented here lend themselves to easy and straightforward replications, modifications, and extensions.
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    A new human adipocyte model with PTEN haploinsufficiency
    (Abingdon : Taylor and Francis Inc., 2020) Kässner F.; Kirstein A.; Händel N.; Schmid G.L.; Landgraf K.; Berthold A.; Tannert A.; Schaefer M.; Wabitsch M.; Kiess W.; Körner A.; Garten A.
    Few human cell strains are suitable and readily available as in vitro adipocyte models. We used resected lipoma tissue from a patient with germline phosphatase and tensin homolog (PTEN) haploinsufficiency to establish a preadipocyte cell strain termed LipPD1 and aimed to characterize cellular functions and signalling pathway alterations in comparison to the established adipocyte model Simpson-Golabi-Behmel-Syndrome (SGBS) and to primary stromal-vascular fraction cells. We found that both cellular life span and the capacity for adipocyte differentiation as well as adipocyte-specific functions were preserved in LipPD1 and comparable to SGBS adipocytes. Basal and growth factor-stimulated activation of the PI3 K/AKT signalling pathway was increased in LipPD1 preadipocytes, corresponding to reduced PTEN levels in comparison to SGBS cells. Altogether, LipPD1 cells are a novel primary cell model with a defined genetic lesion suitable for the study of adipocyte biology. © 2020, © 2020 The Author(s). Published by Informa UK Limited, trading as Taylor & Francis Group.