ATRX silences Cartpt expression in osteoblastic cells during skeletal development
Yi-Ting Chen, … , Yangjin Bae, Brendan Lee
Yi-Ting Chen, … , Yangjin Bae, Brendan Lee
Published January 2, 2025
Citation Information: J Clin Invest. 2025;135(1):e163587. https://doi.org/10.1172/JCI163587.
View: Text | PDF
Research Article Bone biology

ATRX silences Cartpt expression in osteoblastic cells during skeletal development

Abstract

ATP-dependent chromatin remodeling protein ATRX is an essential regulator involved in maintenance of DNA structure and chromatin state and regulation of gene expression during development. ATRX was originally identified as the monogenic cause of X-linked α-thalassemia mental retardation (ATR-X) syndrome. Affected individuals display a variety of developmental abnormalities and skeletal deformities. Studies from others investigated the role of ATRX in skeletal development by tissue-specific Atrx knockout. However, the impact of ATRX during early skeletal development has not been examined. Using preosteoblast-specific Atrx conditional knockout mice, we observed increased trabecular bone mass and decreased osteoclast number in bone. In vitro coculture of Atrx conditional knockout bone marrow stromal cells (BMSCs) with WT splenocytes showed impaired osteoclast differentiation. Additionally, Atrx deletion was associated with decreased receptor activator of nuclear factor κ-B ligand (Rankl)/ osteoprotegerin (Opg) expression ratio in BMSCs. Notably, Atrx-deficient osteolineage cells expressed high levels of the neuropeptide cocaine- and amphetamine-regulated transcript prepropeptide (Cartpt). Mechanistically, ATRX suppresses Cartpt transcription by binding to the promoter, which is otherwise poised for Cartpt expression by RUNX2 binding to the distal enhancer. Finally, Cartpt silencing in Atrx conditional knockout BMSCs rescued the molecular phenotype by increasing the Rankl/Opg expression ratio. Together, our data show a potent repressor function of ATRX in restricting Cartpt expression during skeletal development.

Authors

Yi-Ting Chen, Ming-Ming Jiang, Carolina Leynes, Mary Adeyeye, Camilla F. Majano, Barakat Ibrahim, Urszula Polak, George Hung, Zixue Jin, Denise G. Lanza, Lan Liao, Brian Dawson, Yuqing Chen-Evenson, Oscar E. Ruiz, Richard J. Gibbons, Jason D. Heaney, Yangjin Bae, Brendan Lee

×

Figure 2

Atrx deletion in preosteoblast decreases osteoclast differentiation that is associated with reduced Rankl/Opg expression ratio in BMSCs.

Options: View larger image (or click on image) Download as PowerPoint
Atrx deletion in preosteoblast decreases osteoclast differentiation tha...
(A) Schematic illustration of in vitro osteoclast differentiation assay. Ctrl, cells isolated from 8-week-old Atrxfl/y control mice; cKO, cells isolated from 8-week-old Atrx-cKO mice. (B and C) TRAP staining of multinucleated cells. Representative microscopic view of the cells after TRAP staining (B); quantification of TRAP-positive area and TRAP-positive cell number per well (C). Original magnification, ×5. n = 4 for Atrxfl/y control; n = 3 for Atrx-cKO. Six technical replicates were included in the quantification. (DF) RT-qPCR results of Rankl (D), Opg (E), and Rankl/Opg ratio (F) in BMSCs from control and Atrx-cKO mice. n = 3 per group. Data are presented as means with ± SD. Student’s t test. *P < 0.05; **P < 0.01; ***P < 0.005.