Shifting osteogenesis in vascular calcification
Jiayi Yao, Xiuju Wu, Xiaojing Qiao, Daoqin Zhang, Li Zhang, Jocelyn A. Ma, Xinjiang Cai, Kristina I. Boström, Yucheng Yao
Jiayi Yao, Xiuju Wu, Xiaojing Qiao, Daoqin Zhang, Li Zhang, Jocelyn A. Ma, Xinjiang Cai, Kristina I. Boström, Yucheng Yao
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Research Article Vascular biology

Shifting osteogenesis in vascular calcification

Abstract

Transitions between cell fates commonly occur in development and disease. However, reversing an unwanted cell transition in order to treat disease remains an unexplored area. Here, we report a successful process of guiding ill-fated transitions toward normalization in vascular calcification. Vascular calcification is a severe complication that increases the all-cause mortality of cardiovascular disease but lacks medical therapy. The vascular endothelium is a contributor of osteoprogenitor cells to vascular calcification through endothelial-mesenchymal transitions, in which endothelial cells (ECs) gain plasticity and the ability to differentiate into osteoblast-like cells. We created a high-throughput screening and identified SB216763, an inhibitor of glycogen synthase kinase 3 (GSK3), as an inducer of osteoblastic-endothelial transition. We demonstrated that SB216763 limited osteogenic differentiation in ECs at an early stage of vascular calcification. Lineage tracing showed that SB216763 redirected osteoblast-like cells to the endothelial lineage and reduced late-stage calcification. We also found that deletion of GSK3β in osteoblasts recapitulated osteoblastic-endothelial transition and reduced vascular calcification. Overall, inhibition of GSK3β promoted the transition of cells with osteoblastic characteristics to endothelial differentiation, thereby ameliorating vascular calcification.

Authors

Jiayi Yao, Xiuju Wu, Xiaojing Qiao, Daoqin Zhang, Li Zhang, Jocelyn A. Ma, Xinjiang Cai, Kristina I. Boström, Yucheng Yao

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Figure 4

SB216763 promotes the transition of osteoblast-like cells to endothelial differentiation and ameliorates vascular calcification.

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SB216763 promotes the transition of osteoblast-like cells to endothelial...
(A) Schematic of the experimental procedure used to determine the effect of SB216763 treatment on early-stage calcification. (B) Von Kossa staining of aortic tissues (n = 7). Scale bar: 50 μm. (C) Total aortic calcium after SB216763 treatment (n = 8). (D) FACS analysis of CD31+ aortic cells using anti-osterix (OSX) and anti–VE-cadherin antibodies (n = 6). (E) Immunoblotting of aortic tissues of Mgp–/– mice after SB216763 treatment (n = 6). (F) Schematic of experimental procedures to examine the effect of SB216763 treatment on late-stage calcification. (G and H) Micro-CT images of aortic calcification in Mgp–/– mice after SB216763 treatment (n = 6). Scale bar: 5 mm. (I) Total aortic calcium and calcification score in Mgp–/– mice after SB216763 treatment (n = 8). (J) H&E staining of Mgp–/– aortic tissues after SB216763 treatment (n = 6). Scale bar: 50 µm. (K) FACS analysis of Mgp–/– aortic cells using anti-osterix (OSX) and anti–VE-cadherin antibodies (n = 6). Data in C were analyzed for statistical significance by ANOVA with post hoc Tukey’s analysis. Data in I were analyzed by unpaired Student’s t test. The bounds of the boxes are upper and lower quartiles. The line in the box is the median, and the whiskers are the maximum and minimal values.