Placenta-derived factors contribute to human iPSC-liver organoid growth

Organoids derived from human induced pluripotent stem cells (hiPSC) are potentially applicable for regenerative medicine. However, the applications have been hampered by limited organoid size and function as a consequence of a lack of progenitor expansion. Here, we report the recapitulation of progenitor expansion in hiPSC-liver organoids based on the analysis of mouse development. Visualization of blood perfusion and oxygen levels in mouse embryos reveals a transient hypoxic environment during hepatoblast expansion, despite active blood flow. During this specific stage, the placenta expresses various growth factors. Human and mouse placenta-liver interaction analysis identifies various placenta-derived factors. Among them, IL1α efficiently induces the growth in hiPSC-liver organoids as well as mouse fetal livers following progenitor expansion under hypoxia. Furthermore, subsequent oxygenation demonstrates that progenitors expanded by IL1α contribute to hiPSC-liver organoid size and function. Taken together, we demonstrate that treatment with the placenta-derived factor under hypoxia is a crucial human organoid culture technique that efficiently induces progenitor expansion. Applications of hPSC-derived organoids have been hampered by limited organoid size and function. Here, authors report that treatment with IL1α, a placenta-derived factor, under hypoxia induces progenitor expansion in the hPSC-derived liver organoids.