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Literature DB >> 21670768

Cathepsin K: its skeletal actions and role as a therapeutic target in osteoporosis.

Aline G Costa¹, Natalie E Cusano, Barbara C Silva, Serge Cremers, John P Bilezikian.

Abstract

Bone remodeling consists of two phases--bone resorption and bone formation--that are normally balanced. When bone resorption exceeds bone formation, pathologic processes, such as osteoporosis, can result. Cathepsin K is a member of the papain family of cysteine proteases that is highly expressed by activated osteoclasts. Cathepsin K readily degrades type I collagen, the major component of the organic bone matrix. With such a major role in the initial process of bone resorption, cathepsin K has become a therapeutic target in osteoporosis. The antiresorptive properties of cathepsin K inhibitors have been studied in phase I and phase II clinical trials. Phase III studies are currently underway for odanacatib, a selective cathepsin K inhibitor.

Entities: Chemical Disease Gene

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Year: 2011 PMID： 21670768 DOI： 10.1038/nrrheum.2011.77

Source DB: PubMed Journal: Nat Rev Rheumatol ISSN： 1759-4790 Impact factor: 20.543

88 in total

1. Cathepsin K in adipocyte differentiation and its potential role in the pathogenesis of obesity.

Authors: Yin Xiao; Han Junfeng; Luo Tianhong; Wang Lu; Chen Shulin; Zhao Yu; Li Xiaohua; Jian Weixia; Zheng Sheng; Gu Yanyun; Li Guo; Luo Min
Journal: J Clin Endocrinol Metab Date: 2006-08-15 Impact factor: 5.958

2. Structure activity relationships of 5-, 6-, and 7-methyl-substituted azepan-3-one cathepsin K inhibitors.

Authors: Dennis S Yamashita; Robert W Marquis; Ren Xie; Sirishkumar D Nidamarthy; Hye-Ja Oh; Jae U Jeong; Karl F Erhard; Keith W Ward; Theresa J Roethke; Brian R Smith; H-Y Cheng; Xiaoliu Geng; Fan Lin; Priscilla H Offen; Bing Wang; Neysa Nevins; Martha S Head; R Curtis Haltiwanger; Amy A Narducci Sarjeant; Louise M Liable-Sands; Baoguang Zhao; Ward W Smith; Cheryl A Janson; Enoch Gao; Thaddeus Tomaszek; Michael McQueney; Ian E James; Catherine J Gress; Denise L Zembryki; Michael W Lark; Daniel F Veber
Journal: J Med Chem Date: 2006-03-09 Impact factor: 7.446

3. Genomic organization and chromosome localization of the human cathepsin K gene (CTSK).

Authors: J A Rood; S Van Horn; F H Drake; M Gowen; C Debouck
Journal: Genomics Date: 1997-04-15 Impact factor: 5.736

4. Pycnodysostosis, a lysosomal disease caused by cathepsin K deficiency.

Authors: B D Gelb; G P Shi; H A Chapman; R J Desnick
Journal: Science Date: 1996-08-30 Impact factor: 47.728

5. Comparison of cathepsins K and S expression within the rheumatoid and osteoarthritic synovium.

Authors: Wu-Shiun Hou; Weijie Li; Gernot Keyszer; Ekkehard Weber; Roger Levy; Michael J Klein; Ellen M Gravallese; Steven R Goldring; Dieter Brömme
Journal: Arthritis Rheum Date: 2002-03

Review 6. The role of cathepsins in osteoporosis and arthritis: rationale for the design of new therapeutics.

Authors: Yoshiyuki Yasuda; Jadwiga Kaleta; Dieter Brömme
Journal: Adv Drug Deliv Rev Date: 2005-04-15 Impact factor: 15.470

7. Molecular analysis of a novel cathepsin K gene mutation in a Chinese child with pycnodysostosis.

Authors: H-Y Li; H-W Ma; H-Q Wang; W-H Ma
Journal: J Int Med Res Date: 2009 Jan-Feb Impact factor: 1.671

8. Role of cathepsin K in structural changes in brachiocephalic artery during progression of atherosclerosis in apoE-deficient mice.

Authors: Andriy O Samokhin; Andre Wong; Paul Saftig; Dieter Brömme
Journal: Atherosclerosis Date: 2008-03-04 Impact factor: 5.162

9. The gene for pycnodysostosis maps to human chromosome 1cen-q21.

Authors: M H Polymeropoulos; R I Ortiz De Luna; S E Ide; R Torres; J Rubenstein; C A Francomano
Journal: Nat Genet Date: 1995-06 Impact factor: 38.330

10. Cathepsin K null mice show reduced adiposity during the rapid accumulation of fat stores.

Authors: Marcella Funicello; Michela Novelli; Maurizio Ragni; Teresa Vottari; Cesare Cocuzza; Joaquin Soriano-Lopez; Chiara Chiellini; Federico Boschi; Pasquina Marzola; Pellegrino Masiello; Paul Saftig; Ferruccio Santini; Rene St-Jacques; Sylvie Desmarais; Nicolas Morin; Joseph Mancini; M David Percival; Aldo Pinchera; Margherita Maffei
Journal: PLoS One Date: 2007-08-01 Impact factor: 3.240

81 in total

1. Impact of circulating cathepsin K on the coronary calcification and the clinical outcome in chronic kidney disease patients.

Authors: Yusuke Izumi; Mutsuharu Hayashi; Ryota Morimoto; Xian Wu Cheng; Hongxian Wu; Hideki Ishii; Yoshinari Yasuda; Daiji Yoshikawa; Hideo Izawa; Seiichi Matsuo; Yutaka Oiso; Toyoaki Murohara
Journal: Heart Vessels Date: 2014-08-24 Impact factor: 2.037

2. Chondroitin sulfate promotes activation of cathepsin K.

Authors: Peter A Lemaire; Lingyi Huang; Ya Zhuo; Jun Lu; Carolyn Bahnck; Shawn J Stachel; Steve S Carroll; Le T Duong
Journal: J Biol Chem Date: 2014-06-23 Impact factor: 5.157

3. Involvement of multiple myeloma cell-derived exosomes in osteoclast differentiation.

Authors: Lavinia Raimondi; Angela De Luca; Nicola Amodio; Mauro Manno; Samuele Raccosta; Simona Taverna; Daniele Bellavia; Flores Naselli; Simona Fontana; Odessa Schillaci; Roberto Giardino; Milena Fini; Pierfrancesco Tassone; Alessandra Santoro; Giacomo De Leo; Gianluca Giavaresi; Riccardo Alessandro
Journal: Oncotarget Date: 2015-05-30

Review 4. Osteoporosis treatment: recent developments and ongoing challenges.

Authors: Sundeep Khosla; Lorenz C Hofbauer
Journal: Lancet Diabetes Endocrinol Date: 2017-07-07 Impact factor: 32.069

5. Lactating Ctcgrp nulls lose twice the normal bone mineral content due to fewer osteoblasts and more osteoclasts, whereas bone mass is fully restored after weaning in association with up-regulation of Wnt signaling and other novel genes.

Authors: Jillian N Collins; Beth J Kirby; Janine P Woodrow; Robert F Gagel; Clifford J Rosen; Natalie A Sims; Christopher S Kovacs
Journal: Endocrinology Date: 2013-03-05 Impact factor: 4.736

Review 6. Interstitial collagen catabolism.

Authors: Gregg B Fields
Journal: J Biol Chem Date: 2013-02-19 Impact factor: 5.157