1.Ablation of adenosine monophosphate-activated protein kinaseα1 in vascular smooth muscle cells promotes diet-induced atherosclerotic calcification in vivo
Zhejun CAI ; Ye DING ; Miao ZHANG ; Qiulun LU ; Shengnan WU ; Huaiping ZHU ; Ping SONG ; Minghui ZOU
Chinese Journal of Pathophysiology 2016;32(8):1493-1493,1494
AIM:Atherosclerotic calcification is highly linked with plaque instability and cardiovascular events .Adenosine monophosphate-activated protein kinase ( AMPK) has been involved in the pathogenesis of various cardiovascular disease .The contributions of AMPKαsubunits to the development of atherosclerotic calcification in vivo remained unknown .We hypothesized that AMPKαsubunits may play a role in the development of atherosclerotic calcification .METHODS: Atherosclerotic calcification was generated by 24-week fed of western diet in ApoE-/-background mice .Calcification was evaluated in aortic roots and innominate arteries of ApoE-/-mice or in mice with dual deficiencies of ApoE and AMPKαsubunits globally ( AMPKα1 and AMPKα2 ) , or vascular smooth muscle cell ( VSMC)-specific or macrophage-specific knockout of AMPKα1 with atherosclerotic calcification pone diet . The mechanism of AMPKα1 in regulating Runx2 was further explored in human aortic VSMC .RESULTS: Ablation of AMPKα1 but not AMPKα2 in ApoE-/-background promoted atherosclerotic calcification with increased Runt -related transcription factor ( Runx2 ) expression in VSMC compared with ApoE-/-mice.Conversely, chronic administration of metformin, which activated AMPK, markedly reduced ath-erosclerotic calcification and Runx2 expression in ApoE-/-mice but had less effects in ApoE-/-/AMPKα1 -/-mice.Furthermore, VSMC-but not macrophage-specific deficiency of AMPKα1 in ApoE-/-background promoted atherosclerotic calcification in vivo com-pared with the controls .AMPKα1 silencing in human aortic VSMC prevented Runx 2 from proteasome degradation to trigger osteoblastic differentiation of VSMC .Conversely , activation of AMPK led to Runx 2 instability by inducing its small ubiquitin-like modifier modifi-cation (SUMOylation).Protein inhibitor of activated STAT-1 (PIAS1), the SUMO E3-ligase of Runx2, was directly phosphorylated by
AMPKα1 at serine 510, to enhance its SUMO E3-ligase activity.Ablation of PIAS1 serine 510 phosphorylation inhibited metformin-in-duced Runx2 SUMOylation, and subsequently prevented the effect of metformin on reducing oxLDL-triggered Runx2 expression in hu-man aortic VSMC.CONCLUSION:Deficiency of AMPKα1 in VSMC increases Runx2 expression and promotes atherosclerotic calcifi-cation in vivo.AMPKα1 phosphorylates PIAS1 to enhance Runx2 SUMOyalation and subsequent degradation .