KBTBD2 controls bone development by regulating IGF-1 signaling during osteoblast differentiation
Kelch repeat and BTB (POZ) domain-containing 2 (KBTBD2) is known for its pivotal role in metabolic regulation, particularly in adipocytes. However, its significance in skeletal development has remained elusive. Here, we uncover a previously unrecognized function of KBTBD2 in bone formation. Conditio...
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Veröffentlicht in: | Cell death and differentiation 2024-11 |
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Sprache: | eng |
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Zusammenfassung: | Kelch repeat and BTB (POZ) domain-containing 2 (KBTBD2) is known for its pivotal role in metabolic regulation, particularly in adipocytes. However, its significance in skeletal development has remained elusive. Here, we uncover a previously unrecognized function of KBTBD2 in bone formation. Conditional knockout of Kbtbd2 in embryonic osteochondroprogenitor cells or osteoblasts results in impaired osteogenic differentiation, leading to reduced skeletal growth and mineralization. Mechanistically, the loss of KBTBD2 during osteogenesis leads to the accumulation of p85α, a regulatory subunit encoded by phosphoinositide-3-kinase regulatory subunit 1 (Pik3r1), which exerts a potent inhibitory effect on insulin-like growth factor 1 (IGF-1)-induced activation of AKT. Moreover, our study extends the understanding of KBTBD2's relevance beyond bone biology to the context of SHORT syndrome, a rare genetic disorder marked by short stature and various physical abnormalities. We demonstrate that p85α harboring the p.(Arg649Trp) mutation, most frequently found in SHORT syndrome patients, exhibits reduced binding to KBTBD2, leading to impaired IGF-1-mediated activation of AKT. These findings reveal that KBTBD2 is essential in bone formation via regulating the IGF-1 signaling pathway and suggest loss of KBTBD2-mediated regulation of p85α as a potential mechanism for SHORT syndrome. |
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ISSN: | 1350-9047 1476-5403 1476-5403 |
DOI: | 10.1038/s41418-024-01416-0 |