Although studies demonstrate an important role for fetuin-A (FetA) in the inhibition of vascular calcification, convincing evidence suggests that fetuin-A is also involved in insulin resistance, inflammation and cardiovascular damage.… Click to show full abstract
Although studies demonstrate an important role for fetuin-A (FetA) in the inhibition of vascular calcification, convincing evidence suggests that fetuin-A is also involved in insulin resistance, inflammation and cardiovascular damage. The present study seeks to unravel FetA vascular effects and associated molecular mechanisms, focusing on oxidative stress and toll-like receptor 4 (TLR4). Vascular function studies were performed in mesenteric resistance arteries from WKY rats, wild-type, Nox1 KO, Nox4 KO and Ang II-dependent hypertensive mice (LinA3) and rat aortic endothelial cells (RAEC). ROS production (chemiluminescence, Amplex Red, ELISA) and pro-inflammatory markers expression (RT-PCR) were measured in VSMCs from WKY rats and RAEC. FetA impaired endothelium-dependent (LogEC50 7.320±0.08 M vs control 8.025±0.06) and endothelium-independent vasorelaxation (LogEC50 6.48±0.19 M vs control 7.38±0.12), p<0.05; effects blocked by tempol (superoxide dismutase mimetic), Nox1 inhibitor, ML171, and TLR4 inhibitor, CLI095. We did not observe any changes in contraction. FetA increased ROS production (62%) and peroxynitrite levels (158%) in VSMCs; while in RAEC, FetA increased ROS production (105%) followed by a decrease in H2O2 (62%) levels (p<0.05 vs control). FetA-induced effects on ROS were inhibited by ML171 and GKT137831 (Nox1/Nox4 inhibitor), as well as CLI095. Vascular dysfunction in arteries from Nox1 and Nox4 KO mice was unaffected by FetA. Activation of the FetA/TLR4/Nox axis led to an increase in IL-1β (190%), Il-6 (124%) and RANTES mRNA expression(116%) in RAEC, p<0.05 vs control. FetA enhanced vascular dysfunctionin LinA3 mice. Together, these results suggest that FetA through TLR4/Nox1 and 4-derived ROS leads to vascular dysfunction and inflammation, which may play an important role in the development of vascular injury during hypertension.
               
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