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Hakai, a novel Runx2 interacting protein, augments osteoblast differentiation by rescuing Runx2 from Smurf2‐mediated proteasome degradation

Runt‐related transcription factor 2 (Runx2) is a key regulator of osteoblast differentiation and bone formation. In Runx2‐deficient embryos, skeletal development ceases at the cartilage anlage stage. These embryos die of… Click to show full abstract

Runt‐related transcription factor 2 (Runx2) is a key regulator of osteoblast differentiation and bone formation. In Runx2‐deficient embryos, skeletal development ceases at the cartilage anlage stage. These embryos die of respiratory failure upon birth and display a complete absence of bone and cartilage mineralization. Here, we identified Hakai, a type of E3 ubiquitin ligase as a potential Runx2 interacting partner through affinity pulldown‐based proteomic approach. Subsequently, we observed that similar to Runx2, Hakai was downregulated in osteopenic ovariectomized rats, suggesting its involvement in bone formation. Consistent with this observation, Hakai overexpression significantly enhanced osteoblast differentiation in mesenchyme‐like C3H10T1/2 as well as primary rat calvaria osteoblast (RCO) cells in vitro. Conversely, overexpression of a catalytically inactive Hakai mutant (C109A) exhibited minimal to no effect, whereas Hakai depletion markedly reduced endogenous Runx2 levels and impaired osteogenic differentiation in both C3H10T1/2 and RCOs. Mechanistically, Hakai physically interacts with Runx2 and enhances its protein turnover by rescuing it from Smad ubiquitination regulatory factor 2 (Smurf2)‐mediated proteasome degradation. Wild‐type Hakai but not Hakai‐C109A inhibited Smurf2 protein levels through proteasome‐mediated degradation. These findings underscore Hakai's functional role in bone formation, primarily through its positive modulation of Runx2 protein turnover by protecting it from Smurf2‐mediated ubiquitin‐proteasomal degradation. Collectively, our results demonstrate Hakai as a promising novel therapeutic target for osteoporosis.

Keywords: smurf2 mediated; hakai; degradation; osteoblast differentiation; runx2

Journal Title: Journal of Cellular Physiology
Year Published: 2024

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