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RANKL inhibition reduces lesional cellularity and Gαsvariant expression and enables osteogenic maturation in fibrous dysplasia
- Source :
- Bone Research; December 2024, Vol. 12 Issue: 1
- Publication Year :
- 2024
-
Abstract
- Fibrous dysplasia (FD) is a rare, disabling skeletal disease for which there are no established treatments. Growing evidence supports inhibiting the osteoclastogenic factor receptor activator of nuclear kappa-B ligand (RANKL) as a potential treatment strategy. In this study, we investigated the mechanisms underlying RANKL inhibition in FD tissue and its likely indirect effects on osteoprogenitors by evaluating human FD tissue pre- and post-treatment in a phase 2 clinical trial of denosumab (NCT03571191) and in murine in vivo and ex vivo preclinical models. Histological analysis of human and mouse tissue demonstrated increased osteogenic maturation, reduced cellularity, and reduced expression of the pathogenic Gαsvariant in FD lesions after RANKL inhibition. RNA sequencing of human and mouse tissue supported these findings. The interaction between osteoclasts and mutant osteoprogenitors was further assessed in an ex vivo lesion model, which indicated that the proliferation of abnormal FD osteoprogenitors was dependent on osteoclasts. The results from this study demonstrated that, in addition to its expected antiosteoclastic effect, denosumab reduces FD lesion activity by decreasing FD cell proliferation and increasing osteogenic maturation, leading to increased bone formation within lesions. These findings highlight the unappreciated role of cellular crosstalk between osteoclasts and preosteoblasts/osteoblasts as a driver of FD pathology and demonstrate a novel mechanism of action of denosumab in the treatment of bone disease.
Details
- Language :
- English
- ISSN :
- 20954700 and 20956231
- Volume :
- 12
- Issue :
- 1
- Database :
- Supplemental Index
- Journal :
- Bone Research
- Publication Type :
- Periodical
- Accession number :
- ejs65549416
- Full Text :
- https://doi.org/10.1038/s41413-023-00311-7