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Aebp1 loss in osteoprogenitors leads to skeletal defects resembling Ehlers-Danlos Syndrome by diminishing Wnt/β-catenin signaling
Shuhao Feng, Zihang Feng, Zhonghao Deng, Yiran Wei, Ru Lian, Yangchen Jin, Shiqi Zhao, Yu Jin, Zhongmin Zhang, Liang Zhao
Shuhao Feng, Zihang Feng, Zhonghao Deng, Yiran Wei, Ru Lian, Yangchen Jin, Shiqi Zhao, Yu Jin, Zhongmin Zhang, Liang Zhao
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Research Article Bone biology Cell biology Development

Aebp1 loss in osteoprogenitors leads to skeletal defects resembling Ehlers-Danlos Syndrome by diminishing Wnt/β-catenin signaling

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Abstract

Ehlers-Danlos syndrome, Classic-Like, 2 (clEDS2) is a rare genetic disorder caused by biallelic mutations in the AEBP1 gene, which encodes aortic carboxypeptidase-like protein (ACLP). Patients with clEDS2 exhibit hallmark features such as loose connective tissues, osteoporosis, and scoliosis. Despite its clinical significance, the molecular mechanisms underlying AEBP1 mutations in skeletal development remain poorly understood, and effective therapeutic strategies are currently unavailable. Here, using OsxCre conditional KO mice, we show that Aebp1 deletion in osteoprogenitors reduces body size and bone mass, recapitulating key skeletal features reported in clEDS2. In primary osteoblasts, both genetic deletion and siRNA-mediated knockdown of Aebp1 impair osteoblast differentiation. Mechanistically, Aebp1 loss attenuates Wnt/β-catenin signaling in bone. Restoration of Wnt/β-catenin signaling by injecting BIO, a small molecule inhibitor of GSK3, substantially rescued bone mass reduction in Aebp1-KO mice. These findings support a model in which Aebp1 sustains baseline Wnt/β-catenin tone in osteoblast-lineage cells and suggest that Wnt-targeted approaches may help mitigate clEDS2-related skeletal defects.

Authors

Shuhao Feng, Zihang Feng, Zhonghao Deng, Yiran Wei, Ru Lian, Yangchen Jin, Shiqi Zhao, Yu Jin, Zhongmin Zhang, Liang Zhao

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Figure 6

Aebp1 deletion leads to reduction in Wnt/β-catenin signaling activity in the developing long bones.

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Aebp1 deletion leads to reduction in Wnt/β-catenin signaling activity i...
(A) Schematics of isolating 6-week-old hindlimb bones for the scRNA-Seq analysis. (B) Results of enriched biological processes in top 100 downregulated DEGs of Aebp1OsxCre osteoblasts. (C) Cell counts of Aebp1fl/fl and Aebp1OsxCre osteoblasts among different pseudotime states. (D) Results of enriched pathways in top 100 downregulated DEGs of Aebp1OsxCre osteoblasts. (E) Principal component analysis (PCA) of the bulk RNA-Seq data of Aebp1fl/fl and Aebp1OsxCre femoral samples (n = 3 for each genotype). (F) Estimated proportions of cluster S1 in bulk RNA-Seq data calculated by deconvolution algorithm. (G) Volcano plot exhibits the DEGs of the Aebp1OsxCre group compared with the Aebp1fl/fl group (n = 3 for each genotype). Green dots show genes more highly expressed in the Aebp1fl/fl group. Red dots show genes more highly expressed in the Aebp1OsxCre group. (H) GO enrichment analysis of DEGs downregulated in the Aebp1OsxCre group. (I) GSEA shows the enrichment score of Wnt signaling pathway by comparing with the Aebp1OsxCre group to the Aebp1fl/fl group. (J) Representative images of β-catenin IF staining of the humerus sections from P0 pups with the indicated genotypes. Scale bar: 100 μm. (K) Western blotting analyses of the femur bone tissue lysates of the P0 pups with indicated genotypes. (L) Scaled expression levels of selected Wnt pathway–related genes among Aebp1fl/fl and Aebp1OsxCre groups was shown by heatmap. (M) Related expression of Wnt signaling pathway related gene Axin2, Lrp5, Lrp6, and Ccnd1 in P0 mice femur were accessed by qPCR (n = 4, Student’s t test, data shown as mean ± SD). (N) Western blotting analyses of the β-catenin protein level of MC3T3-E1 cells. (O) Quantification of the Western blotting results in N (n = 3, Student’s t test, data shown as mean ± SD).

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