Dynasore, the dynamin inhibitor, modulates longitudinal bone growth in a hormetic manner.

BackgroundLongitudinal bone growth occurs via the process of endochondral ossification, involving a complex interplay of chondrocyte proliferation, differentiation, and matrix remodelling. As with all mammalian cells, chondrocytes require dynamin for mitochondrial fission, to shuttle vesicles from the Golgi apparatus, and for both clathrin- and caveolin-mediated endocytosis. Here, we aimed to test the functions of dynamin on bone growth. To do so, we applied dynasore - a small molecule that is a reversible dynamin inhibitor - to mouse metatarsal bones cultured ex vivo. We assessed gross changes using bone length measurements and histomorphometry, and combined this with EdU detection, immunostaining, super-resolution microscopy and transmission electron microscopy. ResultsDynasore induced a dose-dependent hormetic effect on bone elongation: while high concentrations (220 {micro}M) impaired growth and abolished chondrocyte proliferation, low-dose treatment (40 {micro}M) significantly increased longitudinal bone growth. Histological analysis demonstrated that low dose dynasore augmented epiphyseal cartilage expansion and matrix accumulation, particularly within the resting and proliferative zones, while reducing chondrocyte proliferation. Immunostaining indicated that 40 {micro}M dynasore preserved collagen type X synthesis, activated mTORC1 signalling, and blocked autophagy, based on SQSTM1 accumulation. Low dose dynasore treatment expanded the thickness of the filamentous actin layer at the plasma membrane and deepened collagen fiber-containing endocytic pits, indicating that impaired cartilage remodelling was associated with growth-associated matrix accumulation. ConclusionsThis study reveals that dynasore exerts hormetic effects on growth plate chondrocytes, wherein low doses stimulate bone elongation, and high doses impair chondrocyte function.