AI Article Synopsis
- - PADI2 is an enzyme that converts peptidyl-arginine to peptidyl-citrulline, but its specific roles in bone formation are not well understood; this study aimed to clarify its functions using knockout mice.
- - The research found that a lack of PADI2 leads to bone mass loss and a cleidocranial dysplasia phenotype, which includes issues like delayed skull ossification and underdeveloped clavicles due to impaired osteoblast differentiation.
- - PADI2 stabilizes RUNX2, a key protein for bone formation, by preventing its degradation; the study identified crucial citrullination sites on RUNX2 that impact its stability, highlighting PADI2 as a potential
Article Abstract
Peptidylarginine deiminase (PADI) 2 catalyzes the post-translational conversion of peptidyl-arginine to peptidyl-citrulline in a process called citrullination. However, the precise functions of PADI2 in bone formation and homeostasis remain unknown. In this study, our objective was to elucidate the function and regulatory mechanisms of PADI2 in bone formation employing global and osteoblast-specific Padi2 knockout mice. Our findings demonstrate that Padi2 deficiency leads to the loss of bone mass and results in a cleidocranial dysplasia (CCD) phenotype with delayed calvarial ossification and clavicular hypoplasia, due to impaired osteoblast differentiation. Mechanistically, Padi2 depletion significantly reduces RUNX2 levels, as PADI2-dependent stabilization of RUNX2 protected it from ubiquitin-proteasomal degradation. Furthermore, we discovered that PADI2 binds to RUNX2 and citrullinates it, and identified ten PADI2-induced citrullination sites on RUNX2 through high-resolution LC-MS/MS analysis. Among these ten citrullination sites, the R381 mutation in mouse RUNX2 isoform 1 considerably reduces RUNX2 levels, underscoring the critical role of citrullination at this residue in maintaining RUNX2 protein stability. In conclusion, these results indicate that PADI2 plays a distinct role in bone formation and osteoblast differentiation by safeguarding RUNX2 against proteasomal degradation. In addition, we demonstrate that the loss-of-function of PADI2 is associated with CCD, thereby providing a new target for the treatment of bone diseases.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10468518 | PMC |
| http://dx.doi.org/10.1038/s41419-023-06101-7 | DOI Listing |
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