Genetic regulation of osteoclast development and function

wbldb

Teitelbaum, Steven L.¹; Ross, F. Patrick¹

Genetic regulation of osteoclast development and function

Nat Rev Genet. August 2003;4(8):638-649

©2003 Nature Publishing Group

Affiliations

¹Department of Pathology, Washington University School of Medicine, 660 South Euclid Avenue, Campus Box 8118, St. Louis, Missouri 63110, USA.
Abstract

Osteoclasts are the principal, if not exclusive, bone-resorbing cells, and their activity has a profound impact on skeletal health. So, disorders of skeletal insufficiency, such as osteoporosis, typically represent enhanced osteoclastic bone resorption relative to bone formation. Prevention of pathological bone loss therefore depends on an appreciation of the mechanisms by which osteoclasts differentiate from their precursors and degrade the skeleton. The past five years have witnessed important insights into osteoclast formation and function. Many of these discoveries have been made through genetic experiments that involved the rare hereditary disorder osteopetrosis.
Links

DOI: 10.1038/nrg1122

PubMed: 12897775

WoS: 000184491300015

Cited Works (11)

Year	Entry
1997	Simonet WS, Lacey DL, Dunstan CR, Kelley M, Chang M-S, Lüthy R, Nguyen HQ, Wooden S, Bennett L, Boone T, Shimamoto G, DeRose M, Elliott R, Colombero A, Tan H-L, Trail G, Sullivan J, Davy E, Bucay N, Renshaw-Gegg L, Hughes TM, Hill D, Pattison W, Campbell P, Sander S, Van G, Tarpley J, Derby P, Lee R, Boyle WJ; Amgen EST Program. Osteoprotegerin: a novel secreted protein involved in the regulation of bone density. Cell. April 18, 1997;89(2):309-319.
2003	Eghbali-Fatourechi G, Khosla S, Sanyal A, Boyle WJ, Lacey DL, Riggs BL. Role of RANK ligand in mediating increased bone resorption in early postmenopausal women. J Clin Invest. April 2003;111(8):1221-1230.
1992	Jilka RL, Hangoc G, Girasole G, Passeri G, Williams DC, Abrams JS, Boyce B, Broxmeyer H, Manolagas SC. Increased osteoclast development after estrogen loss: mediation by interleukin-6. Science. July 3, 1992;257(5066):88-91.
1998	Lacey DL, Timms E, Tan H-L, Kelley MJ, Dunstan CR, Burgess T, Elliott R, Colombero A, Elliott G, Scully S, Hsu H, Sullivan J, Hawkins N, Davy E, Capparelli C, Eli A, Qian Y-X, Kaufman S, Sarosi I, Shalhoub V, Senaldi G, Guo J, Delaney J, Boyle WJ. Osteoprotegerin ligand is a cytokine that regulates osteoclast differentiation and activation. Cell. April 17, 1998;93(2):165-176.
1998	Yasuda H, Shima N, Akagawa NN, Yamaguchi K, Kinosaki M, Mochizuki S-I, Omoyasu AT, Yano K, Goto M, Murakami A, Tsuda E, Morinaga T, Igashio KH, Udagawa N, Tkahashi N, Suda T. Osteoclast differentiation factor is a ligand for osteoprotegerin/osteoclastogenesis-inhibitory factor and is identical to TRANCE/RANKL. Proc Natl Acad Sci USA. March 31, 1998;95(7):3597-3602.
2002	Takayanagi H, Kim S, Koga T, Nishina H, Isshiki M, Yoshida H, Saiura A, Isobe M, Yokochi T, Inoue J-i, Wagner EF, Mak TW, Kodama T, Taniguchi T. Induction and activation of the transcription factor NFATc1 (NFAT2) integrate RANKL signaling in terminal differentiation of osteoclasts. Dev Cell. December 1, 2002;3(6):889-901.
1990	Yoshida H, Hayashi S-I, Kunisada T, Ogawa M, Nishikawa S, Okamura H, Sudo T, Shultz LD, Nishikawa S-I. The murine mutation osteopetrosis is in the coding region of the macrophage colony stimulating factor gene. Nature. May 31, 1990;345(6274):442-444.
2000	Teitelbaum SL. Bone resorption by osteoclasts. Science. September 1, 2000;289(5484):1504-1508.
1998	Bucay N, Sarosi I, Dunstan CR, Morony S, Tarpley J, Capparelli C, Scully S, Tan HL, Xu W, Lacey DL, Boyle WJ, Simonet WS. Osteoprotegerin-deficient mice develop early onset osteoporosis and arterial calcification. Genes Dev. May 1998;12(9):1260-1268.
1990	Udagawa N, Takahashi N, Akatsu T, Tanaka H, Sasaki T, Nishihara T, Koga T, Martin TJ, Suda T. Origin of osteoclasts: mature monocytes and macrophages are capable of differentiating into osteoclasts under a suitable microenvironment prepared by bone marrow-derived stromal cells. Proc Natl Acad Sci USA. September 1, 1990;87(18):7260-7264.
1999	Kong Y-Y, Yoshida H, Sarosi I, Tan H-L, Timms E, Capparelli C, Morony S, Oliveira-dos-Santos AJ, Van G, Itie A, Khoo W, Wakeham A, Dunstan CR, Lacey DL, Mak TW, Boyle WJ, Penninger JM. OPGL is a key regulator of osteoclastogenesis, lymphocyte development and lymph-node organogenesis. Nature. January 28, 1999;397(6717):315-323.

Cited By (28)

Year	Entry
2008	Boyce BF, Xing L. Functions of RANKL/RANK/OPG in bone modeling and remodeling. Arch Biochem Biophys. May 15, 2008;473(2):139-146.
2007	Asagiri M, Takayanagi H. The molecular understanding of osteoclast differentiation. Bone. February 2007;40(2):251-264.
2021	Schreuder WH, van der Wal JE, Lange J, van den Berg H. Multiple versus solitary giant cell lesions of the jaw: similar or distinct entities? Bone. August 2021;149:115935.
2022	Zhao Y, Hao X, Li Z, Feng X, Katz J, Michalek SM, Jiang H, Zhang P. Role of chromatin modulator Dpy30 in osteoclast differentiation and function. Bone. June 2022;159:116379.
2022	Capo V, Abinun M, Villa A. Osteoclast rich osteopetrosis due to defects in the TCIRG1 gene. Bone. December 2022;165:116519.
2023	Lin S, Li M, Zhou Y, Chen L, Wang Y, Zhuang Z, Zhao H, Yang R. Annexin A3 accelerates osteoclast differentiation by promoting the level of RANK and Bone. July 2023;172:116758.
2007	Lee NK, Sowa H, Hinoi E, Ferron M, Ahn JD, Confavreux C, Dacquin R, Mee PJ, McKee MD, Jung DY, Zhang Z, Kim JK, Mauvais-Jarvis F, Ducy P, Karsenty G. Endocrine regulation of energy metabolism by the skeleton. Cell. August 10, 2007;130(3):456-469.
2006	Zhao C, Irie N, Takada Y, Shimoda K, Miyamoto T, Nishiwaki T, Suda T, Matsuo K. Bidirectional ephrinB2-EphB4 signaling controls bone homeostasis. Cell Metab. August 2006;4(2):111-121.
2007	Tatsumi S, Ishii K, Amizuka N, Li M, Kobayashi T, Kohno K, Ito M, Takeshita S, Ikeda K. Targeted ablation of osteocytes induces osteoporosis with defective mechanotransduction. Cell Metab. June 2007;5(6):464-475.
2008	Clarke B. Normal bone anatomy and physiology. Clin J Am Soc Nephrol. November 2008;3(suppl 3):S131-S139.
2005	Glass DA II, Bialek P, Ahn JD, Starbuck M, Patel MS, Clevers H, Taketo MM, Long F, McMahon AP, Lang RA, Karsenty G. Canonical Wnt signaling in differentiated osteoblasts controls osteoclast differentiation. Dev Cell. May 2005;8(5):751-764.
2010	Raggatt LJ, Partridge NC. Cellular and molecular mechanisms of bone remodeling. J Biol Chem. August 13, 2010;285(33):25103-25108.
2020	Shin B, Won H, Adams DJ, Lee S. CD55 regulates bone mass in mice by modulating RANKL‐mediated Rac signaling and osteoclast function. J Bone Miner Res. January 2020;35(1):130-142.
2022	Kim HJ, Ryu K-Y, Kim Y-G, Kim MO, Lee JH, Song M-K, Youn Y-J, Pokhrel NK, Kim S-H, Kim J-Y, Jung H-J, Kim W-S, Hong C-W, Kim H-H, Lee Y. Myeloid-specific PTP1B deficiency attenuates inflammation-induced and ovariectomy-induced bone loss in mice by inhibiting osteoclastogenesis. J Bone Miner Res. March 2022;37(3):505-514.
2011	Xiong J, Onal M, Jilka RL, Weinstein RS, Manolagas SC, O'Brien CA. Matrix-embedded cells control osteoclast formation. Nat Med. November 2011;17(10):1235-1242.
2013	Sobacchi C, Schulz A, Coxon FP, Villa A, Helfrich MH. Osteopetrosis: genetics, treatment and new insights into osteoclast function. Nat Rev Endocrinol. September 2013;9(9):522-536.
2017	Kreipke TC. Structural, Mechanical, and Biological Relationships of Trabecular Bone in Osteoporosis [PhD thesis]. University of Notre Dame; April 2017.
2010	Janeiro C. The Effect of Bone Quality on Osteoclastic Bone Resorption [PhD thesis]. Troy, NY: Rensselaer Polytechnic Institute; May 2010.
2011	Lam MCW. Single Chain Fraction Variable Binding Molecules as Bone-Targeting Therapeutics and Diagnostics [Master's thesis]. Edmonton, AB: University of Alberta; 2011.
2013	Newa M. Antibody Mediated “Universal” Osteoclast Targeting Platform [PhD thesis]. Edmonton, AB: University of Alberta; 2013.
2013	Fowler TW. Activin Regulation of Osteoclast Formation, Motility, Function, and Survival [PhD thesis]. University of Arkansas for Medical Sciences; 2013.
2006	Rouhi G. Theoretical Aspects of Bone Remodeling and Resorption Processes [PhD thesis]. Calgary, AB: University of Calgary; March 2006.
2019	Emami AJ. Systemic Bone Loss After Femoral Fracture in Mice: Potential Mechanisms and Age-Related Effects [PhD thesis]. Davis, University of California; 2019.
2010	Thompson WR. Perlecan Modulates the Function of the Osteocyte Lacuno-Canalicular System [PhD thesis]. University of Delaware; 2010.
2007	Ackert-Bicknell CL. The Effects of Allelic Variation in Pparg* on Skeletal Metabolism* [PhD thesis]. Orono, ME: University of Maine; December 2007.
2014	Reeves NM. Augmenting Functional Adaptation: Does Obesity Have a Systemic Effect on Bone Strength Properties in Humans? [PhD thesis]. Knoxville, University of Tennessee; May 2014.
2013	Liu CC. Effects of a New Conjugate Drug in a Rat Model of Postmenopausal Osteoporosis [Master's thesis]. University of Toronto; 2013.
2019	Mei X. Microfluidic Platform for Investigating Osteocyte Mechanoregulation of Breast Cancer Bone Metastasis [Master's thesis]. University of Toronto; 2019.