Stroma-derived connective tissue growth factor maintains cell cycle progression and repopulation activity of hematopoietic stem cells in vitro

Istvánffy, Rouzanna; Vilne, Baiba; Schreck, Christina; Ruf, Franziska; Pagel, Charlotta; Grziwok, Sandra; Henkel, Lynette; Prazeres Da Costa, Olivia; Berndt, Johannes; Stümpflen, Volker; Götze, Katharina S.; Schiemann, Matthias; Peschel, Christian; Mewes, Hans Werner; Oostendorp, Robert A.J.

Please use this identifier to cite or link to this item: 10.1016/j.stemcr.2015.09.018

Title:	Stroma-derived connective tissue growth factor maintains cell cycle progression and repopulation activity of hematopoietic stem cells in vitro
Authors:	Istvánffy, Rouzanna Vilne, Baiba Schreck, Christina Ruf, Franziska Pagel, Charlotta Grziwok, Sandra Henkel, Lynette Prazeres Da Costa, Olivia Berndt, Johannes Stümpflen, Volker Götze, Katharina S. Schiemann, Matthias Peschel, Christian Mewes, Hans Werner Oostendorp, Robert A.J.
Keywords:	3.1 Basic medicine;1.6 Biological sciences;1.1. Scientific article indexed in Web of Science and/or Scopus database;Biochemistry;Genetics;Developmental Biology;Cell Biology
Issue Date:	10-Nov-2015
Citation:	Istvánffy , R , Vilne , B , Schreck , C , Ruf , F , Pagel , C , Grziwok , S , Henkel , L , Prazeres Da Costa , O , Berndt , J , Stümpflen , V , Götze , K S , Schiemann , M , Peschel , C , Mewes , H W & Oostendorp , R A J 2015 , ' Stroma-derived connective tissue growth factor maintains cell cycle progression and repopulation activity of hematopoietic stem cells in vitro ' , Stem Cell Reports , vol. 5 , no. 5 , pp. 702-715 . https://doi.org/10.1016/j.stemcr.2015.09.018
Abstract:	Hematopoietic stem cells (HSCs) are preserved in co-cultures with UG26-1B6 stromal cells or their conditioned medium. We performed a genome-wide study of gene expression changes of UG26-1B6 stromal cells in contact with Lineage- SCA-1+ KIT+ (LSK) cells. This analysis identified connective tissue growth factor (CTGF) to be upregulated in response to LSK cells. We found that co-culture of HSCs on CTGF knockdown stroma (shCtgf) shows impaired engraftment and long-term quality. Further experiments demonstrated that CD34- CD48- CD150+ LSK (CD34- SLAM) cell numbers from shCtgf co-cultures increase in G0 and senescence and show delayed time to first cell division. To understand this observation, a CTGF signaling network model was assembled, which was experimentally validated. In co-culture experiments of CD34- SLAM cells with shCtgf stromal cells, we found that SMAD2/3-dependent signaling was activated, with increasing p27Kip1 expression and downregulating cyclin D1. Our data support the view that LSK cells modulate gene expression in the niche to maintain repopulating HSC activity.
Description:	Funding Information: This project was supported by Technische Universität München, Graduate School of Bioengineering (GSB; http://www.bioengineering.gs.tum.de ), the German José Leukemia Research Foundation (DJCLS R 11/12), and the German Research Council (DFG OO 8/5, OO 8/9, and FOR 2033/1). We gratefully acknowledge the support of Prof. Torsten Buch, of the Expression Core Facility of the Institute of Medical Microbiology, Hygiene, and Immunology of the Technische Universität München. Publisher Copyright: © 2015 The Authors. Copyright: Copyright 2017 Elsevier B.V., All rights reserved.
DOI:	10.1016/j.stemcr.2015.09.018
ISSN:	2213-6711
Appears in Collections:	Research outputs from Pure / Zinātniskās darbības rezultāti no ZDIS Pure

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