Spheroids based on chondrocytes are gaining interest in the treatment of injured cartilage tissue due to their regenerative potential. In this study, chondrocyte-based aggregates were formed by culturing cells on a polymeric coating of a lactose-modified chitosan (CTL) and their evolution was followed for 14 days of culture. Morphological analyses through scanning electron microscopy indicated that these cell aggregates formed by a process of cell aggregation rather than proliferation, resulting in structures with an irregular morphology that were up to 1 mm in size. Chondrocytes interact very closely with CTL. In the early days of cellular aggregation, CTL is distributed among the cells, while in later stages, it is localized in the inner part of the aggregates, forming an amorphous matrix. The initial outer position of the polymer is replaced over time by an increased matrix deposition whose main component is type II collagen. Transmission electron microscopy pointed out that the chondrocytes internalized the polymer during the first days of culture. The presence of CTL does not affect the ability of cells to migrate from chondro-aggregates when transferred to uncoated wells, mimicking the ability of cells to colonize a cartilage defect. Overall, these results suggest that CTL plays a role as a temporary matrix for chondrocytes aggregation during chondro-aggregates formation. This opens up innovative therapeutic approaches for cartilage regeneration without the need to use a scaffold to deliver cells to the damaged site.KEYWORDS: chondrocytes, spheroids, lactose-modified chitosan, cartilage regeneration, bioactive polysaccharide
