Time-dependent BMP4 signaling directs lineage specification in human mesoderm
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Human pluripotent stem cells (hPSCs) provide a powerful platform for modeling early human embryonic development. Here, we investigate the mechanisms underlying mesodermal heterogeneity using a minimal directed differentiation system that simultaneously generates paraxial (PXM), intermediate (IM) and lateral plate mesoderm (LPM) populations. Single-cell RNA sequencing across defined time points during hPSC differentiation revealed a temporal sequence of lineage specification with LPM emerging first, followed by PXM and IM differentiation. Ligand-receptor and differential gene expression analyses identified BMP4 as a key regulator enriched in LPM-associated clusters versus mesoderm progenitors (MPs) that hold PXM and IM precursors. Whereas LPM cells cluster with an early BMP4 signal, IM clusters are associated with later BMP4. Moreover, these early and late BMP4 signals regulate this lineage specification potentially through distinct downstream pathways. Leveraging this insight, we established a stepwise protocol combining early BMP inhibition with subsequent BMP4 supplementation, suppressing initial LPM fate to efficiently induce IM from a mixed MP population. Longer culture of these selective IM progenitors promotes more mature nephrogenesis. Moreover, we demonstrate that during early differentiation high levels of BMP4 can still redirect MPs to more lateroventral fates, illustrating a degree of plasticity within the mesoderm lineage. Together, our results define a temporal framework for BMP4 signaling in mesoderm fate determination and provide a strategy for selective mesoderm differentiation from hPSCs.
HIGHLIGHTS
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Development of a minimal 2D differentiation platform allows for heterogenous mesoderm formation.
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Temporal BMP4 signaling differentially directs mesoderm fates, with early exposure favoring LPM and late exposure promoting IM identity.
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LPM cells arise first while later mesoderm progenitors hold both IM and PXM-fated cells.
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Sequential BMP modulation promotes IM and enhances nephrogenesis.