Dynamic Compression of Spheroid-Laden Alginate Granular Composites Induces Hypertrophic Chondrocyte Phenotype
Ramos-Rodriguez, D.; Filler, A. C.; Palle, S. R.; Fok, S. W.; Wheeler, E. E.; Leach, K.
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Hypertrophic cartilage is a promising bone repair strategy by producing a mineralizable matrix that transitions to bone through endochondral ossification. Current approaches require large cell numbers and costly recombinant factors to induce chondrogenesis. Here, we developed a composite granular scaffold using photocrosslinkable alginate microgels, cell-secreted decellularized extracellular matrix (dECM), and mesenchymal stromal cell (MSC) spheroids under dynamic compressive loading for hypertrophic cartilage formation. Incorporation of dECM into MSC spheroids enhanced expression of chondrogenic markers and supported the hypertrophic phenotype, evidenced by increased VEGFA and SPP1 expression and ALP activity. Dynamic loading further increased spheroid sprouting and scaffold mineralization. Histology confirmed mature hypertrophic cartilage conducive to bone formation. Upregulation of hypertrophic and osteogenic markers was associated with YAP1 activation, linking compressive loading to mechanotransduction to drive hypertrophic cartilage formation. These results demonstrate that dynamic compressive loading, cell aggregates, and scaffold granular macroporosity synergistically yield hypertrophic cartilage.
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