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Directed differentiation of hPSCs through a simplified lateral plate mesoderm protocol for generation of articular cartilage progenitors

Christopher A. Smith, Paul A. Humphreys, Mark A Naven, Steven Paul Woods, Fabrizio E. Mancini, Julieta O’Flaherty, Qing‐Jun Meng, Susan J. Kimber

2023PLoS ONE19 citationsDOIOpen Access PDF

Abstract

Developmentally, the articular joints are derived from lateral plate (LP) mesoderm. However, no study has produced both LP derived prechondrocytes and preosteoblasts from human pluripotent stem cells (hPSC) through a common progenitor in a chemically defined manner. Differentiation of hPSCs through the authentic route, via an LP-osteochondral progenitor (OCP), may aid understanding of human cartilage development and the generation of effective cell therapies for osteoarthritis. We refined our existing chondrogenic protocol, incorporating knowledge from development and other studies to produce a LP-OCP from which prechondrocyte- and preosteoblast-like cells can be generated. Results show the formation of an OCP, which can be further driven to prechondrocytes and preosteoblasts. Prechondrocytes cultured in pellets produced cartilage like matrix with lacunae and superficial flattened cells expressing lubricin. Additionally, preosteoblasts were able to generate a mineralised structure. This protocol can therefore be used to investigate further cartilage development and in the development of joint cartilage for potential treatments.

Topics & Concepts

ChondrogenesisMesodermCartilageCell biologyProgenitor cellInduced pluripotent stem cellCellular differentiationAnatomyLateral plate mesodermStem cellBiologyChemistryEmbryonic stem cellGeneticsGeneOsteoarthritis Treatment and MechanismsMicroRNA in disease regulationMesenchymal stem cell research
Directed differentiation of hPSCs through a simplified lateral plate mesoderm protocol for generation of articular cartilage progenitors | Litcius