Altered endochondral bone development in matrix metalloproteinase 13-deficient mice

doi:10.1242/dev.01461

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First published online November 11, 2004
doi: 10.1242/10.1242/dev.01461

Development 131, 5883-5895 (2004)
Published by The Company of Biologists 2004

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Altered endochondral bone development in matrix metalloproteinase 13-deficient mice

Dominique Stickens¹^,*, Danielle J. Behonick¹, Nathalie Ortega¹, Babette Heyer¹, Bettina Hartenstein², Ying Yu¹, Amanda J. Fosang³, Marina Schorpp-Kistner², Peter Angel² and Zena Werb¹^,*

¹ Department of Anatomy and Biomedical Sciences Graduate Program, University of California, San Francisco, CA 94143-0452, USA
² Deutsches Krebsforschungszentrum Heidelberg (DKFZ), Division of Signal Transduction and Growth Control (A100), Im Neuenheimer Feld 280, D-69120 Heidelberg, Germany
³ University of Melbourne, Department of Paediatrics, Royal Children's Hospital, Parkville, Victoria, Australia

^* Authors for correspondence (e-mail: domi{at}itsa.ucsf.edu; zena{at}itsa.ucsf.edu)

Accepted 25 September 2004

The assembly and degradation of extracellular matrix (ECM) moleculesare crucial processes during bone development. In this study,we show that ECM remodeling is a critical rate-limiting stepin endochondral bone formation. Matrix metalloproteinase (MMP)13 (collagenase 3) is poised to play a crucial role in boneformation and remodeling because of its expression both in terminalhypertrophic chondrocytes in the growth plate and in osteoblasts. Moreover,a mutation in the human MMP13 gene causes the Missouri variantof spondyloepimetaphyseal dysplasia. Inactivation of Mmp13 in micethrough homologous recombination led to abnormal skeletal growthplate development. Chondrocytes differentiated normally buttheir exit from the growth plate was delayed. The severity ofthe Mmp13- null growth plate phenotype increased until about5 weeks and completely resolved by 12 weeks of age. Mmp13-nullmice had increased trabecular bone, which persisted for months.Conditional inactivation of Mmp13 in chondrocytes and osteoblastsshowed that increases in trabecular bone occur independentlyof the improper cartilage ECM degradation caused by Mmp13 deficiencyin late hypertrophic chondrocytes. Our studies identified thetwo major components of the cartilage ECM, collagen type IIand aggrecan, as in vivo substrates for MMP13. We found thatdegradation of cartilage collagen and aggrecan is a coordinatedprocess in which MMP13 works synergistically with MMP9. Micelacking both MMP13 and MMP9 had severely impaired endochondralbone, characterized by diminished ECM remodeling, prolongedchondrocyte survival, delayed vascular recruitment and defective trabecularbone formation (resulting in drastically shortened bones). These datasupport the hypothesis that proper ECM remodeling is the dominant rate-limitingprocess for programmed cell death, angiogenesis and osteoblast recruitmentduring normal skeletal morphogenesis.

Key words: Collagenase, MMP, Homologous recombination, Knockout, Hypertrophic cartilage, Chondrocyte, Trabecular bone, Collagen, Aggrecan, Mouse

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				C. Zaragoza, E. Lopez-Rivera, C. Garcia-Rama, M. Saura, A. Martinez-Ruiz, T. R. Lizarbe, F. Martin-de-Lara, and S. Lamas Cbfa-1 mediates nitric oxide regulation of MMP-13 in osteoblasts. J. Cell Sci., May 1, 2006; 119(Pt 9): 1896 - 1902. [Abstract] [Full Text] [PDF]

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