We have previously shown that the transcription factor HNF4A is required for the formation of hepatic progenitor cells from endoderm that has been derived from human induced pluripotent stem cells (iPSCs). We reasoned that we could uncover regulatory pathways with new roles in hepatocyte differentiation by identifying cellular processes that regulate HNF4A. We therefore performed a screen of 1120 small molecules with well-characterized mechanisms of action to detect those that affect the abundance of HNF4A in iPSC-derived hepatic progenitor cells. This approach uncovered several small molecules that depleted HNF4A. Of those, we chose to focus on an inhibitor of heat shock protein 90 beta (HSP90β). We show that mutation of the gene encoding HSP90β represses hepatocyte differentiation during the formation of hepatocytes from iPSCs. We reveal that HSP90β, although dispensable for expression of HNF4A mRNA, directly interacts with HNF4A protein to regulate its half-life. Our results demonstrate that HSP90β has an unappreciated role in controlling hepatic progenitor cell formation and highlight the efficiency of using small-molecule screens during the differentiation of iPSCs to reveal new molecular mechanisms that control hepatocyte formation.
Author contributions
Conceptualization: R.J., S.A.D.; Methodology: R.J., S.A.D.; Validation: R.J.; Formal analysis: R.J., C.B.D., S.A.D.; Investigation: R.J., C.B.D., S.A.D.; Resources: S.A.D.; Data curation: R.J., S.A.D.; Writing - original draft: R.J.; Writing - review & editing: S.A.D.; Visualization: S.A.D.; Supervision: S.A.D.; Project administration: S.A.D.; Funding acquisition: S.A.D.
Funding
This work was supported by gifts from the Marcus Family, the Phoebe R. and John D. Lewis Foundation, the South Carolina Smart State Endowed Chair in Regenerative Medicine, and by National Institutes of Health (DK102716, HG006398 and HD08257). Deposited in PMC for release after 12 months.
