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Title Heparin-based hydrogels induce human renal tubulogenesis in vitro
Date 15.07.2017
Number 53341
Abstract Dialysis or kidney transplantation is the only therapeutic option for end stage renal disease. Accordingly, there is a large unmet clinical need for new causative therapeutic treatments. Obtaining robust models that mimic the complex nature of the human kidney is a critical step in the development of new therapeutic strategies. Here we establish a synthetic in vitro human renal tubulogenesis model based on a tunable glycosaminoglycan-hydrogel platform. In this system, renal tubulogenesis can be modulated by the adjustment of hydrogel mechanics and degradability, growth factor signaling, and the presence of insoluble adhesion cues, potentially providing new insights for regenerative therapy. Different hydrogel properties were systematically investigated for their ability to regulate renal tubulogenesis. Hydrogels based on heparin and matrix metalloproteinase cleavable peptide linker units were found to induce the morphogenesis of single human proximal tubule epithelial cells into physiologically sized tubule structures. The generated tubules display polarization markers, extracellular matrix components, and organic anion transport functions of the in vivo renal proximal tubule and respond to nephrotoxins comparable to the human clinical response. The established hydrogel-based human renal tubulogenesis model is thus considered highly valuable for renal regenerative medicine and personalized nephrotoxicity studies.
URL https://doi.org/10.1016/j.actbio.2017.05.035
Publisher Acta Biomaterialia
Identifier 0
Citation Acta Biomaterialia 57 (2017) 59-69
DOI https://doi.org/10.1016/j.actbio.2017.05.035
Authors Weber, H. ; Tsurkan, M. ; Magno, V. ; Freudenberg, U. ; Werner, C.
Tags in vitro renal tubulogenesis human proximal tubule cells hydrogel heparin nephrotoxicity

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