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Generation of a 3D Liver Model Comprising Human Extracellular Matrix in an Alginate/Gelatin-Based Bioink by Extrusion Bioprinting for Infection and Transduction Studies

Thomas Hiller, Johanna Berg, Laura Elomaa, Viola Röhrs, Imran Ullah, Katrin Schaar, Ann-Christin Dietrich, Munir A. Al-Zeer, Andreas Kurtz, Andreas C. Hocke, Stefan Hippenstiel, Henry Fechner, Marie Weinhart, Jens Kurreck – 2018

Bioprinting is a novel technology that may help to overcome limitations associated with two-dimensional (2D) cell cultures and animal experiments, as it allows the production of three-dimensional (3D) tissue models composed of human cells. The present study describes the optimization of a bioink composed of alginate, gelatin and human extracellular matrix (hECM) to print human HepaRG liver cells with a pneumatic extrusion printer. The resulting tissue model was tested for its suitability for the study of transduction by an adeno-associated virus (AAV) vector and infection with human adenovirus 5 (hAdV5). We found supplementation of the basic alginate/gelatin bioink with 0.5 and 1 mg/mL hECM provides desirable properties for the printing process, the stability of the printed constructs, and the viability and metabolic functions of the printed HepaRG cells. The tissue models were efficiently transduced by AAV vectors of serotype 6, which successfully silenced an endogenous target (cyclophilin B) by means of RNA interference. Furthermore, the printed 3D model supported efficient adenoviral replication making it suitable to study virus biology and develop new antiviral compounds. We consider the approach described here paradigmatic for the development of 3D tissue models for studies including viral vectors and infectious viruses.

Title
Generation of a 3D Liver Model Comprising Human Extracellular Matrix in an Alginate/Gelatin-Based Bioink by Extrusion Bioprinting for Infection and Transduction Studies
Author
Thomas Hiller, Johanna Berg, Laura Elomaa, Viola Röhrs, Imran Ullah, Katrin Schaar, Ann-Christin Dietrich, Munir A. Al-Zeer, Andreas Kurtz, Andreas C. Hocke, Stefan Hippenstiel, Henry Fechner, Marie Weinhart, Jens Kurreck
Publisher
MDPI
Date
2018-10-12
Identifier
doi:10.3390/ijms19103129
Citation
Int. J. Mol. Sci. 2018, 19, 3129.
Language
eng
Type
Text