ANGPTL4 binds to the leptin receptor to regulate ectopic bone formation
H Hu, S Luo, P Lai, M Lai, L Mao, S Zhang… - Proceedings of the …, 2024 - pnas.org
H Hu, S Luo, P Lai, M Lai, L Mao, S Zhang, Y Jiang, J Wen, W Zhou, X Liu, L Wang…
Proceedings of the National Academy of Sciences, 2024•pnas.orgLeptin protein was thought to be unique to leptin receptor (LepR), but the phenotypes of
mice with mutation in LepR [db/db (diabetes)] and leptin [ob/ob (obese)] are not identical,
and the cause remains unclear. Here, we show that db/db, but not ob/ob, mice had defect in
tenotomy-induced heterotopic ossification (HO), implicating alternative ligand (s) for LepR
might be involved. Ligand screening revealed that ANGPTL4 (angiopoietin-like protein 4), a
stress and fasting-induced factor, was elicited from brown adipose tissue after tenotomy …
mice with mutation in LepR [db/db (diabetes)] and leptin [ob/ob (obese)] are not identical,
and the cause remains unclear. Here, we show that db/db, but not ob/ob, mice had defect in
tenotomy-induced heterotopic ossification (HO), implicating alternative ligand (s) for LepR
might be involved. Ligand screening revealed that ANGPTL4 (angiopoietin-like protein 4), a
stress and fasting-induced factor, was elicited from brown adipose tissue after tenotomy …
Leptin protein was thought to be unique to leptin receptor (LepR), but the phenotypes of mice with mutation in LepR [db/db (diabetes)] and leptin [ob/ob (obese)] are not identical, and the cause remains unclear. Here, we show that db/db, but not ob/ob, mice had defect in tenotomy-induced heterotopic ossification (HO), implicating alternative ligand(s) for LepR might be involved. Ligand screening revealed that ANGPTL4 (angiopoietin-like protein 4), a stress and fasting-induced factor, was elicited from brown adipose tissue after tenotomy, bound to LepR on PRRX1+ mesenchymal cells at the HO site, thus promotes chondrogenesis and HO development. Disruption of LepR in PRRX1+ cells, or lineage ablation of LepR+ cells, or deletion of ANGPTL4 impeded chondrogenesis and HO in mice. Together, these findings identify ANGPTL4 as a ligand for LepR to regulate the formation of acquired HO.
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