Abstract
Atherosclerotic calcification often coincides with osteoporosis, suggesting a potential interplay between bone and vascular mineralization. Osteoblast-derived matrix vesicles (Ost-MVs), pivotal in bone mineralization, have emerged as potential contributors to ectopic vascular calcification. However, the precise role of Ost-MVs in vascular calcification and the underlying mechanisms remain elusive. In this study, we observed a concomitant increase in atherosclerotic calcification and bone loss, accompanied by elevated release of Ost-MVs into circulation. We demonstrate that circulating Ost-MVs target plaque lesions in the setting of atherosclerosis. Mechanistically, vascular injury facilitates transendothelial transport of Ost-MVs, collagen І remodeling promotes Ost-MVs aggregation, and vascular smooth muscle cell (VSMC) phenotypic switching enhances MV uptake. These pathological changes during atherosclerosis collectively contribute to Ost-MVs recruitment into the vasculature. Furthermore, Ost-MVs and VSMC-derived matrix vesicles (VSMC-MVs) exacerbate calcification via the Ras-Raf-ERK pathway. Our findings unveil a novel Ost-MVs-mediated mechanism participating in vascular calcification and enriching our understanding of bone-vascular crosstalk.
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