GSK-3β Controls Osteogenesis through Regulating Runx2 Activity

被引：129

作者：

Kugimiya, Fumitaka ^{[1
,2
]}

Kawaguchi, Hiroshi ^{[2
]}

Ohba, Shinsuke ^{[1
]}

Kawamura, Naohiro ^{[2
]}

Hirata, Makoto ^{[2
]}

Chikuda, Hirotaka ^{[2
]}

Azuma, Yoshiaki ^{[3
]}

Woodgett, James R. ^{[4
]}

Nakamura, Kozo ^{[2
]}

Chung, Ung-il ^{[1
]}

机构：

[1] Univ Tokyo, Ctr Dis Biol & Integrat Med, Tokyo, Japan

[2] Univ Tokyo, Fac Med, Tokyo 113, Japan

[3] Teijin Inst Biomed Res, Tokyo, Japan

[4] Princess Margaret Hosp, Ontario Canc Inst, Toronto, ON M4X 1K9, Canada

来源：

PLOS ONE | 2007年 / 2卷 / 09期

关键词：

D O I：

10.1371/journal.pone.0000837

中图分类号：

O [数理科学和化学]; P [天文学、地球科学]; Q [生物科学]; N [自然科学总论];

学科分类号：

07 ; 0710 ; 09 ;

摘要：

Despite accumulated knowledge of various signalings regulating bone formation, the molecular network has not been clarified sufficiently to lead to clinical application. Here we show that heterozygous glycogen synthase kinase-3 beta (GSK-3 beta)-deficient mice displayed an increased bone formation due to an enhanced transcriptional activity of Runx2 by suppressing the inhibitory phosphorylation at a specific site. The cleidocranial dysplasia in heterozygous Runx2-deficient mice was significantly rescued by the genetic insufficiency of GSK-3 beta or the oral administration of lithium chloride, a selective inhibitor of GSK-3 beta. These results establish GSK-3 beta as a key attenuator of Runx2 activity in bone formation and as a potential molecular target for clinical treatment of bone catabolic disorders like cleidocranial dysplasia.

引用

页数：10

共 50 条

[1] GSK-3β inhibits osteohlastic bone formation through suppression of runx2 transcriptional activity by the phosphorylation at a specific site
Hirata, M.
Kugimiya, F.
Kawamura, N.
Ohba, S.
Nakamura, K.
Kawaguchi, H.
Chung, U.
JOURNAL OF BONE AND MINERAL RESEARCH, 2007, 22 : S69 - S69
[2] Runx2/DICER/miRNA Pathway in Regulating Osteogenesis
Zheng, Leilei
Tu, Qisheng
Meng, Shu
Zhang, Lan
Yu, Liming
Song, Jinlin
Hu, Yun
Sui, Lei
Zhang, Jin
Dard, Michel
Cheng, Jessica
Murray, Dana
Tang, Yin
Lian, Jane B.
Stein, Gary S.
Chen, Jake
JOURNAL OF CELLULAR PHYSIOLOGY, 2017, 232 (01) : 182 - 191
[3] Transcriptional regulation of Runx2 by HSP90 controls osteosarcoma apoptosis via the AKT/GSK-3/-catenin signaling
Liang, Gui-Hong
Liu, Ning
He, Ming-Tang
Yang, Jie
Liang, Zu-Jian
Gao, Xue-Juan
Rahhal, Ali Hasan
He, Qing-Yu
Zhang, Huan-Tian
Zha, Zhen-Gang
JOURNAL OF CELLULAR BIOCHEMISTRY, 2018, 119 (01) : 948 - 959
[4] Inhibition of GSK-3β Enhances Osteoblast Differentiation of Human Mesenchymal Stem Cells through Wnt Signalling Overexpressing Runx2
AlMuraikhi, Nihal
Binhamdan, Sarah
Alaskar, Hanouf
Alotaibi, Amal
Tareen, Sumaiya
Muthurangan, Manikandan
Alfayez, Musaad
INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES, 2023, 24 (08)
[5] ROLE AND REGULATION OF RUNX2 IN OSTEOGENESIS
Bruderer, M.
Richards, R. G.
Alini, M.
Stoddart, M. J.
EUROPEAN CELLS & MATERIALS, 2014, 28 : 269 - 286
[6] The Key Roles of GSK-3β in Regulating Mitochondrial Activity
Yang, Kai
Chen, Zhixi
Gao, Juanjuan
Shi, Weinnei
Li, Linfu
Jiang, Shan
Hu, Haibo
Liu, Zhiping
Xu, Daohua
Wu, Longhuo
CELLULAR PHYSIOLOGY AND BIOCHEMISTRY, 2017, 44 (04) : 1445 - 1459
[7] FUNCTION OF RUNX2 AND OSTERIX IN OSTEOGENESIS AND TEETH
Kim, Jung-Eun
JOURNAL OF THE KOREAN ASSOCIATION OF ORAL AND MAXILLOFACIAL SURGEONS, 2007, 33 (04) : 381 - 385
[8] Control of osteogenesis by posttranslational modification of Runx2
Ryoo, H.
Park, O.
Lee, Z.
Bae, S.
CALCIFIED TISSUE INTERNATIONAL, 2008, 82 : S116 - S116
[9] Twist Controls Skeletal Development and Dorsoventral Patterning by Regulating Runx2 in Zebrafish
Yang, Der-Chih
Tsai, Chih-Chien
Liao, Yun-Feng
Fu, Hui-Chuan
Tsay, Huey-Jen
Huang, Tung-Fu
Chen, Yau-Hung
Hung, Shih-Chieh
PLOS ONE, 2011, 6 (11):
[10] Thrap3 promotes osteogenesis by inhibiting the degradation of Runx2
Zhou, Lei
Li, Haoran
Sun, Shiwei
Zhang, Tieqi
Yu, Yueming
Xu, Liang
Wang, Minghai
FASEB JOURNAL, 2022, 36 (04):

← 1 2 3 4 5 →