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Loss of TBX3 enhances pancreatic progenitor generation from human pluripotent stem cells

Somdutta Mukherjee, Deborah L. French, Paul Gadue

2021Stem Cell Reports19 citationsDOIOpen Access PDF

Abstract

Tbx3 has been identified as a regulator of liver development in the mouse, but its function in human liver development remains unknown. TBX3 mutant human pluripotent stem cell (PSC) lines were generated using CRISPR/Cas9 genome editing. TBX3 loss led to impaired liver differentiation and an upregulation of pancreatic gene expression, including PDX1, during a hepatocyte differentiation protocol. Other pancreatic genes, including NEUROG3 and NKX2.2, displayed more open chromatin in the TBX3 mutant hepatoblasts. Using a pancreatic differentiation protocol, cells lacking TBX3 generated more pancreatic progenitors and had an enhanced pancreatic gene expression signature at the expense of hepatic gene expression. These data highlight a potential role of TBX3 in regulating hepatic and pancreatic domains during foregut patterning, with implications for enhancing the generation of pancreatic progenitors from PSCs.

Topics & Concepts

PDX1BiologyProgenitor cellInduced pluripotent stem cellCell biologyStem cellPancreasCellular differentiationCRISPREmbryonic stem cellCancer researchGeneGeneticsTranscription factorEndocrinologyPancreatic function and diabetesGenetics and Neurodevelopmental DisordersPluripotent Stem Cells Research
Loss of TBX3 enhances pancreatic progenitor generation from human pluripotent stem cells | Litcius