Abstract
Adult bone structural integrity is maintained by remodeling via the coupling of osteoclastic bone resorption and osteoblastic bone formation. Osteocytes or osteoblasts express receptor activator of nuclear factor κ-B ligand (Rankl) or osteoprotegerin (Opg) to promote or inhibit osteoclastogenesis, respectively. Bone morphogenetic protein (BMP) is a potent bone inducer, but its major role in adult bone is to induce osteocytes to upregulate sclerostin (Sost) and increase the Rankl/Opg expression ratio, resulting in promotion of osteoclastogenesis. However, the precise effect of BMP-target gene(s) in osteoblasts on the Rankl/Opg expression ratio remains unclear. In the present study, we identified atonal homolog 8 (Atoh8), which is directly upregulated by the BMP-Smad1 axis in osteoblasts. In vivo, Atoh8 was detected in osteoblasts but not osteocytes in adult mice. Although global Atoh8-knockout mice showed only a mild phenotype in the neonate skeleton, the bone volume was decreased and osteoclasts were increased in the adult phase. Atoh8-null marrow stroma cells were more potent than wild-type cells in inducing osteoclastogenesis in marrow cells. Atoh8 loss in osteoblasts increased Runx2 expression and the Rankl/Opg expression ratio, while Runx2 knockdown normalized the Rankl/Opg expression ratio. Moreover, Atoh8 formed a protein complex with Runx2 to inhibit Runx2 transcriptional activity and decrease the Rankl/Opg expression ratio. These results suggest that bone remodeling is regulated elaborately by BMP signaling; while BMP primarily promotes bone resorption, it simultaneously induces Atoh8 to inhibit Runx2 and reduce the Rankl/Opg expression ratio in osteoblasts, suppressing osteoclastogenesis and preventing excessive BMP-mediated bone resorption.
Highlights
In adult bone, bone remodeling maintains structural integrity via the clearance and repair of damaged bone and regulates mineral homeostasis.[1,2] Osteoclastic bone resorption and osteoblastic bone formation occur sequentially in a synchronized manner at adjacent anatomical spots to preserve bone volume (BV).[3,4] The differentiation of osteoblasts is governed by the master regulator transcription factor Runx2.5 Runx[2] upregulates osteoblast-specific genes, such as osterix (Osx; Sp7), alkaline phosphatase (ALP; Alpl), type I collagen (Col1a1), bone sialoprotein (Bsp; Ibsp), and osteocalcin (Ocn; Bglap).[6]
We focused on Atoh[8] because it induced by Bone morphogenetic protein (BMP)-activated Smad[1] in differentiating osteoblastic is the only gene that has not been reported to be associated with cells
We found that only the ATOH8 Δ231–286 mutant osteoblasts in both BMP-6-treated and BMP-6-nontreated con- failed to suppress Runx[2] transcriptional activity, as assessed by the ditions (Fig. 6b), suggesting that Atoh[8] inhibits Runx[2] expression 6xOSE2 reporter luciferase assay (Fig. 8e)
Summary
Bone remodeling maintains structural integrity via the clearance and repair of damaged bone and regulates mineral homeostasis.[1,2] Osteoclastic bone resorption and osteoblastic bone formation occur sequentially in a synchronized manner at adjacent anatomical spots to preserve bone volume (BV).[3,4] The differentiation of osteoblasts is governed by the master regulator transcription factor Runx2.5 Runx[2] upregulates osteoblast-specific genes, such as osterix (Osx; Sp7), alkaline phosphatase (ALP; Alpl), type I collagen (Col1a1), bone sialoprotein (Bsp; Ibsp), and osteocalcin (Ocn; Bglap).[6]. Atoh[8] loss promotes BMP-induced osteoblast differentiation, Immunoprecipitation assays with transfected expression plasmids increases the Rankl/Opg expression ratio, and induces maturation revealed that Runx[2] formed a complex with Atoh[8] (Fig. 8b). This into osteocytes in vitro interaction was enhanced by treatment with the proteasome. The osteocyte-specific genes Dmp[1] and Sost were significantly augmented by BMP-6 in Atoh8-KO osteoblasts
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