Journal ArticleDOI
Signalling mediated by the endoplasmic reticulum stress transducer OASIS is involved in bone formation.
Tomohiko Murakami,Atsushi Saito,Shin-ichiro Hino,Shinichi Kondo,Soshi Kanemoto,Kazuyasu Chihara,Hiroshi Sekiya,Kenji Tsumagari,Kimiko Ochiai,Kazuya Yoshinaga,Masahiro Saitoh,Riko Nishimura,Toshiyuki Yoneda,Ikuyo Kou,Tatsuya Furuichi,Shiro Ikegawa,Masahito Ikawa,Masaru Okabe,Akio Wanaka,Kazunori Imaizumi +19 more
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TLDR
The studies show that OASIS is critical for bone formation through the transcription of Col1a1 and the secretion of bone matrix proteins, and they reveal a new mechanism by which ER stress-induced signalling mediates bone formation.Abstract:
Eukaryotic cells have signalling pathways from the endoplasmic reticulum (ER) to cytosol and nuclei, to avoid excess accumulation of unfolded proteins in the ER. We previously identified a new type of ER stress transducer, OASIS, a bZIP (basic leucine zipper) transcription factor, which is a member of the CREB/ATF family and has a transmembrane domain. OASIS is processed by regulated intramembrane proteolysis (RIP) in response to ER stress, and is highly expressed in osteoblasts. OASIS(-/-) mice exhibited severe osteopenia, involving a decrease in type I collagen in the bone matrix and a decline in the activity of osteoblasts, which showed abnormally expanded rough ER, containing of a large amount of bone matrix proteins. Here we identify the gene for type 1 collagen, Col1a1, as a target of OASIS, and demonstrate that OASIS activates the transcription of Col1a1 through an unfolded protein response element (UPRE)-like sequence in the osteoblast-specific Col1a1 promoter region. Moreover, expression of OASIS in osteoblasts is induced by BMP2 (bone morphogenetic protein 2), the signalling of which is required for bone formation. Additionally, RIP of OASIS is accelerated by BMP2 signalling, which causes mild ER stress. Our studies show that OASIS is critical for bone formation through the transcription of Col1a1 and the secretion of bone matrix proteins, and they reveal a new mechanism by which ER stress-induced signalling mediates bone formation.read more
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Chondrocyte proliferation regulated by secreted luminal domain of ER stress transducer BBF2H7/CREB3L2.
TL;DR: The dual N- and C-terminal functions of BBF2H7 triggered by physiological ER stress may allow chondrocytes to simultaneously regulate distinct cellular events for differentiation and proliferation in developing cartilage.
Extracellular Microfibrils Control Osteoblast-supported Osteoclastogenesis by Restricting TGF Stimulation of
Abstract: Mutations in fibrillin-1 or fibrillin-2, the major structural components of extracellular microfibrils, cause pleiotropic manifestations in Marfan syndrome and congenital contractural arachnodactyly, respectively. We recently found that fibrillin-1 and fibrillin-2 control bone formation by regulating osteoblast differentiation through the differential modulation of endogenous TGF and bone morphogenetic protein signals. Here, we describe in vivo and ex vivo experiments that implicate the fibrillins as negative regulators of bone resorption. Adult Fbn2 / mice display a greater than normal osteolytic response
Journal ArticleDOI
N-linked glycosylation is required for optimal proteolytic activation of membrane-bound transcription factor CREB-H
TL;DR: It is suggested that N-linked glycosylation is required for full activation of CREB-H through intramembrane proteolysis and a novel mechanism for the regulation of CREb-H-dependent transcription is revealed.
Journal ArticleDOI
The unfolded protein response in skeletal development and homeostasis
TL;DR: This review focuses on recent findings on the functions of the UPR in the differentiation of osteoblasts, chondrocytes, and osteoclasts and may have a substantial impact on the understanding of bone metabolism and also on establishing treatments for congenital and acquired skeletal disorders.
Journal ArticleDOI
CREB3L1 Is a Metastasis Suppressor That Represses Expression of Genes Regulating Metastasis, Invasion, and Angiogenesis
TL;DR: Microarray and chromatin immunoprecipitation with microarray technology (ChIP on Chip) analyses identified changes in the expression of many genes involved in cancer development and metastasis, including a decrease in those involved in angiogenesis.
References
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Journal ArticleDOI
Targeted Disruption of Cbfa1 Results in a Complete Lack of Bone Formation owing to Maturational Arrest of Osteoblasts
Toshihisa Komori,Hideshi Yagi,Shintaro Nomura,Akira Yamaguchi,Koichi Sasaki,Kenji Deguchi,Y Shimizu,Roderick T. Bronson,Y.-H Gao,Masahiko Inada,Makoto Sato,R Okamoto,Yukihiko Kitamura,Shusaku Yoshiki,Tadamitsu Kishimoto +14 more
TL;DR: The data suggest that both intramembranous and endochondral ossification were completely blocked, owing to the maturational arrest of osteoblasts in the mutant mice, and demonstrate that Cbfa1 plays an essential role in osteogenesis.
Journal ArticleDOI
The Novel Zinc Finger-Containing Transcription Factor Osterix Is Required for Osteoblast Differentiation and Bone Formation
Kazuhisa Nakashima,Xin Zhou,Gary R. Kunkel,Zhaoping Zhang,Jian Min Deng,Richard R. Behringer,Benoit de Crombrugghe +6 more
TL;DR: It is proposed that Runx2/Cbfa1-expressing preosteoblasts are still bipotential cells, because Osx null preostEoblasts express typical chondrocyte marker genes, and Osx acts downstream of Runx 2/C bfa1.
Journal ArticleDOI
Cbfa1, a Candidate Gene for Cleidocranial Dysplasia Syndrome, Is Essential for Osteoblast Differentiation and Bone Development
Florian Otto,Anders P Thornell,Tessa Crompton,Angela Denzel,Kimberly C Gilmour,Ian R Rosewell,Gordon Stamp,Rosa S.P Beddington,Stefan Mundlos,Bjorn R. Olsen,Paul B. Selby,Michael John Owen +11 more
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Journal ArticleDOI
ER stress and the unfolded protein response.
TL;DR: A model in which the activity of UPR signaling pathways reflects the biosynthetic activity of the ER is proposed, which shows that this information is integrated into control of cellular events, which were previously not considered to be under control of ER signaling pathways.
Journal ArticleDOI
Reaching a genetic and molecular understanding of skeletal development.
Gerard Karsenty,Erwin F. Wagner +1 more
TL;DR: The role of the principal growth factors and transcription factors affecting different processes of skeletal development, chondrogenesis, joint formation, and osteogenesis are addressed and the genetic cascade leading to cell differentiation is presented.
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