Epigenetic Priming Enhances Chondrogenic Potential of Expanded Chondrocytes for Cartilage Repair

Abstract: Expansion of chondrocytes presents a major obstacle in the cartilage regeneration procedure matrix-induced autologous chondrocyte implantation (MACI). Dedifferentiation of chondrocytes during the expansion process leads to the emergence of a fibrotic (chondrofibrotic) phenotype that decreases the chondrogenic potential of the implanted cells. We aim to 1) determine the extent that chromatin architecture of H3K27me3 and H3K9me3 remodels during dedifferentiation and persists when expanded chondrocytes are transf… Show more

“…Similarly, work from our lab shows that remodeling of H3K9me3 marked chromatin occurs when chondrocytes are exposed to stiff substrates and is later remembered when chondrocytes are transferred to a soft 3D environment. However, the remodeling of H3K9me3 can be partially disrupted with inhibitors of epigenetic modifiers (KDM4, EZH2) ( Scott et al, 2023 ; Scott et al, 2022 ). Many of these examples of mechanical memory and others (listed in Table 1 ) highlight how changes in chromatin architecture can persist, maintaining stable memories.…”

Mechanically induced alterations in chromatin architecture guide the balance between cell plasticity and mechanical memory

“…Similarly, work from our lab shows that remodeling of H3K9me3 marked chromatin occurs when chondrocytes are exposed to stiff substrates and is later remembered when chondrocytes are transferred to a soft 3D environment. However, the remodeling of H3K9me3 can be partially disrupted with inhibitors of epigenetic modifiers (KDM4, EZH2) ( Scott et al, 2023 ; Scott et al, 2022 ). Many of these examples of mechanical memory and others (listed in Table 1 ) highlight how changes in chromatin architecture can persist, maintaining stable memories.…”

Mechanically induced alterations in chromatin architecture guide the balance between cell plasticity and mechanical memory