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Generation and trapping of a mesoderm biased state of human pluripotency

Dylan Stavish, Charlotta Böiers, Christopher J. Price, Thomas J.R. Frith, Jason A. Halliwell, Ingrid M. Saldana-Guerrero, Jason Wray, John Brown, Jonathon Carr, Chela James, Ivana Barbaric, Peter W. Andrews, Tariq Enver

2020Nature Communications39 citationsDOIOpen Access PDF

Abstract

We postulate that exit from pluripotency involves intermediates that retain pluripotency while simultaneously exhibiting lineage-bias. Using a MIXL1 reporter, we explore mesoderm lineage-bias within the human pluripotent stem cell compartment. We identify a substate, which at the single cell level coexpresses pluripotent and mesodermal gene expression programmes. Functionally these cells initiate stem cell cultures and exhibit mesodermal bias in differentiation assays. By promoting mesodermal identity through manipulation of WNT signalling while preventing exit from pluripotency using lysophosphatidic acid, we 'trap' and maintain cells in a lineage-biased stem cell state through multiple passages. These cells correspond to a normal state on the differentiation trajectory, the plasticity of which is evidenced by their reacquisition of an unbiased state upon removal of differentiation cues. The use of 'cross-antagonistic' signalling to trap pluripotent stem cell intermediates with different lineage-bias may have general applicability in the efficient production of cells for regenerative medicine.

Topics & Concepts

MesodermInduced pluripotent stem cellCell biologyBiologyEmbryonic stem cellStem cellWnt signaling pathwayLineage (genetic)Cellular differentiationGeneticsSignal transductionGenePluripotent Stem Cells ResearchCRISPR and Genetic Engineering3D Printing in Biomedical Research
Generation and trapping of a mesoderm biased state of human pluripotency | Litcius