Generation of safe and therapeutically effective human induced pluripotent stem cell-derived hepatocyte-like cells for regenerative medicine.

Journal: Hepatology communications
Published Date: Oct 12, 2017

Abstract

Hepatocyte-like cells (HLCs) differentiated from human induced pluripotent stem (iPS) cells are expected to be applied for regenerative medicine. In this study, we attempted to generate safe and therapeutically effective human iPS-HLCs for hepatocyte transplantation. First, human iPS-HLCs were generated from a human leukocyte antigen-homozygous donor on the assumption that the allogenic transplantation might be carried out. Highly efficient hepatocyte differentiation was performed under a feeder-free condition using human recombinant laminin 111, laminin 511, and type IV collagen. The percentage of asialoglycoprotein receptor 1-positive cells was greater than 80%, while the percentage of residual undifferentiated cells was approximately 0.003%. In addition, no teratoma formation was observed even at 16 weeks after human iPS-HLC transplantation. Furthermore, harmful genetic somatic single-nucleotide substitutions were not observed during the hepatocyte differentiation process. We also developed a cryopreservation protocol for hepatoblast-like cells without negatively affecting their hepatocyte differentiation potential by programming the freezing temperature. To evaluate the therapeutic potential of human iPS-HLCs, these cells (1 × 10 cells/mouse) were intrasplenically transplanted into acute liver injury mice treated with 3 mL/kg CCl only once and chronic liver injury mice treated with 0.6 mL/kg CCl twice weekly for 8 weeks. By human iPS-HLC transplantation, the survival rate of the acute liver injury mice was significantly increased and the liver fibrosis level of chronic liver injury mice was significantly decreased. : We were able to generate safe and therapeutically effective human iPS-HLCs for hepatocyte transplantation. ( 2017;1:1058-1069).

Authors

  • Kazuo Takayama
    Laboratory of Biochemistry and Molecular Biology, Graduate School of Pharmaceutical Sciences Osaka University Osaka Japan.
  • Naoki Akita
    Laboratory of Biochemistry and Molecular Biology, Graduate School of Pharmaceutical Sciences Osaka University Osaka Japan.
  • Natsumi Mimura
    Laboratory of Hepatocyte Regulation, National Institutes of Biomedical Innovation, Health and Nutrition Osaka Japan.
  • Rina Akahira
    ReproCELL Inc Kanagawa Japan.
  • Yukimasa Taniguchi
    Institute for Protein Research Osaka University Osaka Japan.
  • Makoto Ikeda
    Department of Technology Development Kazusa DNA Research Institute Chiba Japan.
  • Fuminori Sakurai
    Laboratory of Biochemistry and Molecular Biology, Graduate School of Pharmaceutical Sciences Osaka University Osaka Japan.
  • Osamu Ohara
    Department of Technology Development Kazusa DNA Research Institute Chiba Japan.
  • Tomohiro Morio
    Department of Pediatrics and Developmental Biology Tokyo Medical and Dental University Tokyo Japan.
  • Kiyotoshi Sekiguchi
    Institute for Protein Research Osaka University Osaka Japan.
  • Hiroyuki Mizuguchi
    Laboratory of Biochemistry and Molecular Biology, Graduate School of Pharmaceutical Sciences Osaka University Osaka Japan.

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