Synthetic hydrogel substrate for human induced pluripotent stem cell definitive endoderm differentiation
- PMID: 39504708
- PMCID: PMC11625597
- DOI: 10.1016/j.biomaterials.2024.122920
Synthetic hydrogel substrate for human induced pluripotent stem cell definitive endoderm differentiation
Abstract
Human induced pluripotent stem cells (hiPSCs) can give rise to multiple lineages derived from three germ layers, endoderm, mesoderm and ectoderm. Definitive endoderm (DE) cell types and tissues have great potential for regenerative medicine applications. Current hiPSC differentiation protocols focus on the addition of soluble factors; however, extracellular matrix properties are known to also play a role in dictating cell fate. Matrigel™ is the gold standard for DE differentiation, but this xenogeneic, poorly defined basement membrane extract limits the clinical translatability of DE-derived tissues. Here we present a fully defined PEG-based hydrogel substrate to support hiPSC-derived DE differentiation. We screened hydrogel formulations presenting different adhesive peptides and matrix stiffness. Our results demonstrate that presenting a short peptide, cyclic RGD, on the engineered PEG hydrogel supports the transition from undifferentiated hiPSCs to DE using a serum-free, commercially available kit. We show that increasing substrate stiffness (G' = 1.0-4.0 kPa) results in an increased linear response in DE differentiation efficiency. We also include a temporal analysis of the expression of integrin and syndecan receptors as the hiPSCs undergo specification towards DE lineage. Finally, we show that focal adhesion kinase activity regulates hiPSC growth and DE differentiation efficiency. Overall, we present a fully defined matrix as a synthetic alternative for Matrigel™ supporting DE differentiation.
Keywords: FAK; Matrix stiffness; PEG hydrogel; RGD; hiPSCs.
Copyright © 2024 Elsevier Ltd. All rights reserved.
Conflict of interest statement
Declaration of competing interest The authors declare no competing interests.
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