OBJECTIVE: Arterial calcification has been associated with matrix metalloproteinase (MMP)-mediated elastin degradation. In this study, we investigated whether inhibiting MMP activity could reduce calcium accumulation in rodent models of aortic calcification. METHODS AND RESULTS: Aortic calcification was first induced in male Sprague-Dawley rats by administration of vitamin D3. Treatment with doxycycline decreased aortic calcium and phosphorus accumulation, and it reduced aortic gelatinase levels; however, it also prevented the bone resorption associated with high doses of vitamin D3. Using an in vivo model of localized aortic calcification, systemic doxycycline treatment reduced aortic calcium accumulation without affecting serum calcium levels, suggesting a more specific effect of doxycycline in the arterial wall. In organ culture, doxycycline limited aortic calcification caused by exposure to alkaline phosphatase and inorganic phosphate. When GM6001, a synthetic and specific inhibitor of MMPs, was used instead of doxycycline, it had a similar effect. In vivo, periadventitial delivery of GM6001 to calcifying arteries significantly reduced calcification compared with controls. CONCLUSIONS: These results suggest that MMPs are involved in aortic calcification, and inhibiting MMP activity could reduce calcium accumulation in the arterial wall.
OBJECTIVE: Arterial calcification has been associated with matrix metalloproteinase (MMP)-mediated elastin degradation. In this study, we investigated whether inhibiting MMP activity could reduce calcium accumulation in rodent models of aortic calcification. METHODS AND RESULTS:Aortic calcification was first induced in male Sprague-Dawley rats by administration of vitamin D3. Treatment with doxycycline decreased aortic calcium and phosphorus accumulation, and it reduced aortic gelatinase levels; however, it also prevented the bone resorption associated with high doses of vitamin D3. Using an in vivo model of localized aortic calcification, systemic doxycycline treatment reduced aortic calcium accumulation without affecting serum calcium levels, suggesting a more specific effect of doxycycline in the arterial wall. In organ culture, doxycycline limited aortic calcification caused by exposure to alkaline phosphatase and inorganic phosphate. When GM6001, a synthetic and specific inhibitor of MMPs, was used instead of doxycycline, it had a similar effect. In vivo, periadventitial delivery of GM6001 to calcifying arteries significantly reduced calcification compared with controls. CONCLUSIONS: These results suggest that MMPs are involved in aortic calcification, and inhibiting MMP activity could reduce calcium accumulation in the arterial wall.
Authors: Su-Li Cheng; Jian-Su Shao; Linda R Halstead; Kathryn Distelhorst; Oscar Sierra; Dwight A Towler Journal: Circ Res Date: 2010-05-20 Impact factor: 17.367
Authors: Brooks A Lane; Katrina A Harmon; Richard L Goodwin; Michael J Yost; Tarek Shazly; John F Eberth Journal: Med Eng Phys Date: 2018-02-01 Impact factor: 2.242
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