Mechanisms of vascular remodeling associated with calcification in obesity and insulin resistance

Vascular remodeling is a vessel response to mechanical and hemodynamic stimuli, which is a major determinant of changes in vessel lumen caliber. The mechanisms that influence arterial remodeling include calcification. We hypothesized that ob/ob mice develop positive vascular remodeling associated with calcification. We quantify and assess mechanisms of vascular remodeling and vascular calcification in ob/ob mice (OB) after vitamin D3 stimulation (VD) or phosphate buffered saline (CT), compared with (C57BL/6) mice. Both ob/ob (OBVD) and C57BL/6 (C57VD) mice received 8x103 IU/day of (IP) vitamin D3 for 14 days. Control ob/ob (OBCT) and C57BL/6 (C57CT) mice received IP phosphate buffered saline (PBS) for 14 days (n=6). Hypervitaminosis D increased the external and internal elastic length in aortas from OB mice, resulting in increased total vascular area and lumen vascular area respectively, which characterizes positive vascular remodeling. OBVD mice decreased the aortic wall thickness, resulting in hypotrophic vascular remodeling. We demonstrated increases in collagen deposition, elastolysis and calcification in the aortas of OBVD mice. These results showed a positive correlation between expansive vascular remodeling and vascular calcification in OBVD mice (R2=0,8; p < 0,003). Furthermore, aorta from OBVD increased oxidative stress, coincidently with augmented metalloproteinase activity. Our data provide evidence that obese type 2 diabetes mellitus and insulin-resistant mice (ob/ob) developed positive hypotrophic vascular remodeling correlated directly with increased vascular calcification in OBVD mice after chronic vitamin D3 stimulation. The development of positive hypotrophic vascular remodeling in this mouse model is possibly mediated by the activation in the aortic wall of MMP and ROS may have contributed to the activation of MMP in our model (AU)