Abstract
Skeletal diseases are often complex in their etiology and affect millions of people worldwide. Due to the aging population, there is a need for new therapeutics that could ease the burden on healthcare systems. As these diseases are complex, it is difficult and expensive to accurately model bone pathophysiology in a lab setting. The challenge for the field is to establish a cost-effective, biologically relevant platform for modeling bone disease that can be used to test potential therapeutic compounds. Such a platform should ideally allow dynamic visualization of cell behaviors of bone-building osteoblasts and bone-degrading osteoclasts acting in their mineralized matrix environment. Zebrafish are increasingly used as models due to the availability of genetic tools, including transgenic reporter lines, and the fact that some skeletal tissues (including the scales) remain translucent to adulthood, allowing dynamic imaging options. Since zebrafish scales have both osteoblasts and osteoclasts and are highly abundant, they provide an easily accessible and abundantly available resource of independent bone units. Moreover, once removed, adult zebrafish scales fully regenerate, therefore offering a way to study the spatiotemporal growth of mineralized tissue in vivo. Here, we detail protocols for harvesting and tracking the regeneration of the scales. Lastly, a protocol for stable culture of scales ex vivo for a week and following the healing response after controlled damage to the mineralized matrix of the scale over time is also presented.
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