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Merck

A 3D Human Liver Model of Nonalcoholic Steatohepatitis.

Journal of clinical and translational hepatology (2021-01-16)
Marion Duriez, Agnes Jacquet, Lucile Hoet, Sandrine Roche, Marie-Dominique Bock, Corinne Rocher, Gilles Haussy, Xavier Vigé, Zsolt Bocskei, Tamara Slavnic, Valérie Martin, Jean-Claude Guillemot, Michel Didier, Aimo Kannt, Cécile Orsini, Vincent Mikol, Anne-Céline Le Fèvre
초록

Background and Aims: To better understand nonalcoholic steatohepatitis (NASH) disease progression and to evaluate drug targets and compound activity, we undertook the development of an in vitro 3D model to mimic liver architecture and the NASH environment. Methods: We have developed an in vitro preclinical 3D NASH model by coculturing primary human hepatocytes, human stellate cells, liver endothelial cells and Kupffer cells embedded in a hydrogel of rat collagen on a 96-well plate. A NASH-like environment was induced by addition of medium containing free fatty acids and tumor necrosis factor-α. This model was then characterized by biochemical, imaging and transcriptomics analyses. Results: We succeeded in defining suitable culture conditions to maintain the 3D coculture for up to 10 days in vitro, with the lowest level of steatosis and reproducible low level of inflammation and fibrosis. NASH disease was induced with a custom medium mimicking NASH features. The cell model exhibited the key NASH disease phenotypes of hepatocyte injury, steatosis, inflammation, and fibrosis. Hepatocyte injury was highlighted by a decrease of CYP3A4 expression and activity, without loss of viability up to day 10. Moreover, the model was able to stimulate a stable inflammatory and early fibrotic environment, with expression and secretion of several cytokines. A global gene expression analysis confirmed the NASH induction. Conclusions: This is a new in vitro model of NASH disease consisting of four human primary cell-types that exhibits most features of the disease. The 10-day cell viability and cost effectiveness of the model make it suitable for medium throughput drug screening and provide attractive avenues to better understand disease physiology and to identify and characterize new drug targets.

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Sigma-Aldrich
Anti-Actin, α-Smooth Muscle antibody, Mouse monoclonal, clone 1A4, purified from hybridoma cell culture
Sigma-Aldrich
Milli-Mark® Anti-CD68-FITC Antibody, clone KP1, clone KP1, Milli-Mark®, from mouse