Shinsuke Ohba scite author profile

Chondrocyte hypertrophy followed by cartilage matrix degradation and vascular invasion, characterized by expression of type X collagen (COL10A1), matrix metalloproteinase-13 (MMP-13) and vascular endothelial growth factor (VEGF), respectively, are central steps of endochondral ossification during normal skeletal growth and osteoarthritis development. A COL10A1 promoter assay identified hypoxia-inducible factor-2alpha (HIF-2alpha, encoded by EPAS1) as the most potent transactivator of COL10A1. HIF-2alpha enhanced promoter activities of COL10A1, MMP13 and VEGFA through specific binding to the respective hypoxia-responsive elements. HIF-2alpha, independently of oxygen-dependent hydroxylation, was essential for endochondral ossification of cultured chondrocytes and embryonic skeletal growth in mice. HIF-2alpha expression was higher in osteoarthritic cartilages versus nondiseased cartilages of mice and humans. Epas1-heterozygous deficient mice showed resistance to osteoarthritis development, and a functional single nucleotide polymorphism (SNP) in the human EPAS1 gene was associated with knee osteoarthritis in a Japanese population. The EPAS1 promoter assay identified RELA, a nuclear factor-kappaB (NF-kappaB) family member, as a potent inducer of HIF-2alpha expression. Hence, HIF-2alpha is a central transactivator that targets several crucial genes for endochondral ossification and may represent a therapeutic target for osteoarthritis.

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PPAR γ insufficiency enhances osteogenesis through osteoblast formation from bone marrow progenitors

Akune¹,

Ohba²,

Kamekura³

et al. 2004

J. Clin. Invest.

410

353

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Based on the fact that aging is associated with a reciprocal decrease of osteogenesis and an increase of adipogenesis in bone marrow and that osteoblasts and adipocytes share a common progenitor, this study investigated the role of PPARγ γ, a key regulator of adipocyte differentiation, in bone metabolism. Homozygous PPARγ γ-deficient ES cells failed to differentiate into adipocytes, but spontaneously differentiated into osteoblasts, and these were restored by reintroduction of the PPARγ γ gene. Heterozygous PPARγ γ-deficient mice exhibited high bone mass with increased osteoblastogenesis, but normal osteoblast and osteoclast functions, and this effect was not mediated by insulin or leptin. The osteogenic effect of PPARγ γ haploinsufficiency became prominent with aging but was not changed upon ovariectomy. The PPARγ γ haploinsufficiency was confirmed to enhance osteoblastogenesis in the bone marrow cell culture but did not affect the cultures of differentiated osteoblasts or osteoclast-lineage cells. This study demonstrates a PPARγ γ-dependent regulation of bone metabolism in vivo, in that PPARγ γ insufficiency increases bone mass by stimulating osteoblastogenesis from bone marrow progenitors.Nonstandard abbreviations used: alkaline phosphatase (ALP); bone morphogenetic protein-2 (BMP-2); bone volume (BV); CCAAT enhancer-binding proteins (C/EBPs); computed tomography (CT); LDL receptor-related protein 5 (LRP5); leukemia inhibitory factor (LIF); M-CSF-dependent bone marrow macrophage (M-BMMφ); receptor activator of nuclear factor κB ligand (RANKL); ovariectomy (OVX); PPAR responsive element (PPRE); tartrate-resistant acid phosphatase (TRAP); tissue volume (TV); type I collagen α1 chain (COL1A1).

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PPAR γ insufficiency enhances osteogenesis through osteoblast formation from bone marrow progenitors

Akune¹,

Ohba²,

Kamekura³

et al. 2004

J. Clin. Invest.

724

328

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Ihh signaling is directly required for the osteoblast lineage in the endochondral skeleton

et al. 2004

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Distinct Transcriptional Programs Underlie Sox9 Regulation of the Mammalian Chondrocyte

et al. 2015

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SUMMARY Sox9 encodes an essential transcriptional regulator of chondrocyte specification and differentiation. When Sox9 nuclear activity was compared with markers of chromatin organization and transcriptional activity in primary chondrocytes, we identified two distinct categories of target association. Class I sites cluster around the transcriptional start sites of highly expressed genes with no chondrocyte-specific signature. Here, Sox9 association reflects protein-protein association with basal transcriptional components. Class II sites highlight evolutionarily conserved active enhancers directing chondrocyte-related gene activity through direct binding of Sox9 dimer complexes to DNA. Sox9 binds through sites with sub-optimal binding affinity; the number and grouping of enhancers into super-enhancer clusters likely determines the levels of target gene expression. Interestingly, comparison of Sox9 action in distinct chondrocyte lineages points to similar regulatory strategies. In addition to providing insights into Sox family action, our comprehensive identification of the chondrocyte regulatory genome will facilitate study of skeletal development and human disease.

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3D spheroid culture system on micropatterned substrates for improved differentiation efficiency of multipotent mesenchymal stem cells

et al. 2009

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Akt1 in Osteoblasts and Osteoclasts Controls Bone Remodeling

et al. 2007

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Bone mass and turnover are maintained by the coordinated balance between bone formation by osteoblasts and bone resorption by osteoclasts, under regulation of many systemic and local factors. Phosphoinositide-dependent serine-threonine protein kinase Akt is one of the key players in the signaling of potent bone anabolic factors. This study initially showed that the disruption of Akt1, a major Akt in osteoblasts and osteoclasts, in mice led to low-turnover osteopenia through dysfunctions of both cells. Ex vivo cell culture analyses revealed that the osteoblast dysfunction was traced to the increased susceptibility to the mitochondria-dependent apoptosis and the decreased transcriptional activity of runt-related transcription factor 2 (Runx2), a master regulator of osteoblast differentiation. Notably, our findings revealed a novel role of Akt1/forkhead box class O (FoxO) 3a/Bim axis in the apoptosis of osteoblasts: Akt1 phosphorylates the transcription factor FoxO3a to prevent its nuclear localization, leading to impaired transactivation of its target gene Bim which was also shown to be a potent proapoptotic molecule in osteoblasts. The osteoclast dysfunction was attributed to the cell autonomous defects of differentiation and survival in osteoclasts and the decreased expression of receptor activator of nuclear factor-κB ligand (RANKL), a major determinant of osteoclastogenesis, in osteoblasts. Akt1 was established as a crucial regulator of osteoblasts and osteoclasts by promoting their differentiation and survival to maintain bone mass and turnover. The molecular network found in this study will provide a basis for rational therapeutic targets for bone disorders.

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Sp7/Osterix Is Restricted to Bone-Forming Vertebrates where It Acts as a Dlx Co-factor in Osteoblast Specification

et al. 2016

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SUMMARY Bone formation in extant species is restricted to vertebrate species. Sp7/Osterix is a key transcriptional determinant of bone-secreting osteoblasts. We performed Sp7 ChIP-seq analysis identifying a large set of predicted osteoblast enhancers and validated a subset of these in cell culture and transgenic mouse assays. Sp-family members bind GC-rich target sequences through their zinc finger domain. Several lines of evidence suggest Sp7 acts differently, engaging osteoblast targets in Dlx-containing regulatory complexes bound to AT-rich motifs. Amino acid differences in the Sp7 zinc finger domain reduce Sp7's affinity for the Sp-family consensus GC-box target; Dlx5 binding maps to this domain of Sp7. The data support a model in which Dlx recruitment of Sp7 to osteoblast enhancers underlies Sp7-directed osteoblast specification. As an Sp7-like zinc finger variant is restricted to vertebrates, the emergence of an Sp7 member within the Sp family was likely closely coupled to evolution of the bone forming vertebrates.

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Shinsuke Ohba

Transcriptional regulation of endochondral ossification by HIF-2α during skeletal growth and osteoarthritis development

PPAR γ insufficiency enhances osteogenesis through osteoblast formation from bone marrow progenitors

PPAR γ insufficiency enhances osteogenesis through osteoblast formation from bone marrow progenitors

Ihh signaling is directly required for the osteoblast lineage in the endochondral skeleton

Distinct Transcriptional Programs Underlie Sox9 Regulation of the Mammalian Chondrocyte

3D spheroid culture system on micropatterned substrates for improved differentiation efficiency of multipotent mesenchymal stem cells

Akt1 in Osteoblasts and Osteoclasts Controls Bone Remodeling

Sp7/Osterix Is Restricted to Bone-Forming Vertebrates where It Acts as a Dlx Co-factor in Osteoblast Specification

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