Literature DB >> 31155493

Modeling Steatohepatitis in Humans with Pluripotent Stem Cell-Derived Organoids.

Rie Ouchi1, Shodai Togo2, Masaki Kimura1, Tadahiro Shinozawa1, Masaru Koido3, Hiroyuki Koike1, Wendy Thompson1, Rebekah A Karns4, Christopher N Mayhew1, Patrick S McGrath5, Heather A McCauley1, Ran-Ran Zhang1, Kyle Lewis1, Shoyo Hakozaki1, Autumn Ferguson1, Norikazu Saiki3, Yosuke Yoneyama6, Ichiro Takeuchi7, Yo Mabuchi8, Chihiro Akazawa8, Hiroshi Y Yoshikawa9, James M Wells10, Takanori Takebe11.   

Abstract

Human organoid systems recapitulate in vivo organ architecture yet fail to capture complex pathologies such as inflammation and fibrosis. Here, using 11 different healthy and diseased pluripotent stem cell lines, we developed a reproducible method to derive multi-cellular human liver organoids composed of hepatocyte-, stellate-, and Kupffer-like cells that exhibit transcriptomic resemblance to in vivo-derived tissues. Under free fatty acid treatment, organoids, but not reaggregated cocultured spheroids, recapitulated key features of steatohepatitis, including steatosis, inflammation, and fibrosis phenotypes in a successive manner. Interestingly, an organoid-level biophysical readout with atomic force microscopy demonstrated that organoid stiffening reflects the fibrosis severity. Furthermore, organoids from patients with genetic dysfunction of lysosomal acid lipase phenocopied severe steatohepatitis, rescued by FXR agonism-mediated reactive oxygen species suppression. The presented key methodology and preliminary results offer a new approach for studying a personalized basis for inflammation and fibrosis in humans, thus facilitating the discovery of effective treatments.
Copyright © 2019 Elsevier Inc. All rights reserved.

Entities:  

Keywords:  Wolman disease; atomic force microscopy; embryonic stem cell; fibrosis; human liver organoid; induced pluripotent stem cell; inflammation; multicellular tissue; steatohepatitis

Year:  2019        PMID: 31155493      PMCID: PMC6687537          DOI: 10.1016/j.cmet.2019.05.007

Source DB:  PubMed          Journal:  Cell Metab        ISSN: 1550-4131            Impact factor:   27.287


  58 in total

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