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  • Loss of PARP-1 attenuates diabetic arteriosclerotic calcification via Stat1/Runx2 axis.

Loss of PARP-1 attenuates diabetic arteriosclerotic calcification via Stat1/Runx2 axis.

Cell death & disease (2020-01-12)
Peng Li, Ying Wang, Xue Liu, Bin Liu, Zhao-Yang Wang, Fei Xie, Wen Qiao, Er-Shun Liang, Qing-Hua Lu, Ming-Xiang Zhang
ABSTRACT

Accelerated atherosclerotic calcification is responsible for plaque burden, especially in diabetes. The regulatory mechanism for atherosclerotic calcification in diabetes is poorly characterized. Here we show that deletion of PARP-1, a main enzyme in diverse metabolic complications, attenuates diabetic atherosclerotic calcification and decreases vessel stiffening in mice through Runx2 suppression. Specifically, PARP-1 deficiency reduces diabetic arteriosclerotic calcification by regulating Stat1-mediated synthetic phenotype switching of vascular smooth muscle cells and macrophage polarization. Meanwhile, both vascular smooth muscle cells and macrophages manifested osteogenic differentiation in osteogenic media, which was attenuated by PARP-1/Stat1 inhibition. Notably, Stat1 acts as a positive transcription factor by directly binding to the promoter of Runx2 and promoting atherosclerotic calcification in diabetes. Our results identify a new function of PARP-1, in which metabolism disturbance-related stimuli activate the Runx2 expression mediated by Stat1 transcription to facilitate diabetic arteriosclerotic calcification. PARP-1 inhibition may therefore represent a useful therapy for this challenging complication.

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Sigma-Aldrich
Anti-MSX2 antibody produced in rabbit, affinity isolated antibody, buffered aqueous glycerol solution