A protocol to differentiate the chondrogenic ATDC5 cell‐line for the collection of chondrocyte‐derived extracellular vesicles

Abstract Skeletal growth and fracture healing rely on the mineralization of cartilage in a process called endochondral ossification. Chondrocytes firstly synthesize and then modify cartilage by the release of a wide range of particles into their extracellular space. Extracellular vesicles (EVs) are one type of such particles, but their roles in endochondral ossification are yet to be fully understood. It remains a challenge to obtain representative populations of chondrocyte‐derived EVs, owing to difficulties both in preserving the function of primary chondrocytes in culture and in applying the serum‐free conditions required for EV production. Here, we used the ATDC5 cell‐line to recover chondrocyte‐derived EVs from early‐ and late‐differentiation stages, representing chondrocytes before and during cartilage mineralization. After screening different culture conditions, our data indicate that a serum‐free Opti‐MEM‐based culture medium preserves chondrocyte identity and function, matrix mineralization and cell viability. We subsequently scaled‐up production and isolated EVs from conditioned medium by size‐exclusion chromatography. The obtained chondrocyte‐derived EVs had typical ultrastructure and expression of classical EV markers, at quantities suitable for downstream experiments. Importantly, chondrocyte‐derived EVs from late‐differentiation stages had elevated levels of alkaline phosphatase activity. Hence, we established a method to obtain functional chondrocyte‐derived EVs before and during cartilage mineralization that may aid the further understanding of their roles in endochondral bone growth and fracture healing.