During limb skeletogenesis chondrocytes follow two developmental paths and produce permanent articular cartilage persisting through life or transient growth plate cartilage in which the cells mature, hypertrophy, and are replaced by bone. Though the critical importance of this developmental bifurcation for skeletal formation and function is widely recognized, the underlying mechanisms of regulation remain unclear, particularly at the molecular level. In the previous funding period, we focused on the transcription factor ERG and its variant C-1-1. Gain-of-function studies with chick and human C-1-1 show that: (a) C-1-1 is able to impose a stable and articular-like phenotype over the entire limb chondrocyte population, blocking growth plate formation, chondrocyte maturation and bone formation; (b) C-1-1 counteracts action of the pro-maturation transcription factor Runx2; and (c) the joint master regulator GDF-5 rapidly induces ERG/C-1-1 expression in developing synovial joints. These and other findings lead to our central hypotheses for this competitive continuation proposal: (a) C-1-1 acting down-stream of GDF-5 contributes to formation of permanent articular chondrocytes; and (b) C-1-1 in turn inhibits Runx2 function, maintains the permanent status of the cells, and prevents maturation and hypertrophy.
Our aims are: (i) to functionally characterize murine ERG variants by cell and explant cultures and transgenic approaches; (ii) determine the consequences of conditional ERG gene ablation during development or postnatal life, using GDF-5-Cre and GDF-5-CreER mice; and (iii) determine the mechanisms by which GDF-5 triggers ERG expression by signaling pathways and promoter action, and how ERG/C-1-1 inhibits Runx2 function. The project will produce fundamental insights into genesis and function of articular chondrocytes. It should also generate mouse models of degenerative joint disease that could be used to test future gene- and cell-based therapies for joints conditions common to osteoarthritic patients and aging individuals. ? ?

Agency
National Institute of Health (NIH)
Institute
National Institute of Arthritis and Musculoskeletal and Skin Diseases (NIAMS)
Type
Research Project (R01)
Project #
5R01AR046000-08
Application #
7217993
Study Section
Skeletal Biology Structure and Regeneration Study Section (SBSR)
Program Officer
Wang, Fei
Project Start
1999-04-15
Project End
2011-03-31
Budget Start
2007-04-01
Budget End
2008-03-31
Support Year
8
Fiscal Year
2007
Total Cost
$331,111
Indirect Cost
Name
Thomas Jefferson University
Department
Orthopedics
Type
Schools of Medicine
DUNS #
053284659
City
Philadelphia
State
PA
Country
United States
Zip Code
19107
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Han, Rong; Pacifici, Maurizio; Iwamoto, Masahiro et al. (2015) Endothelial Erg expression is required for embryogenesis and vascular integrity. Organogenesis 11:75-86
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Decker, Rebekah S; Koyama, Eiki; Pacifici, Maurizio (2014) Genesis and morphogenesis of limb synovial joints and articular cartilage. Matrix Biol 39:5-10
Candela, Maria Elena; Yasuhara, Rika; Iwamoto, Masahiro et al. (2014) Resident mesenchymal progenitors of articular cartilage. Matrix Biol 39:44-9
Decker, Rebekah S; Koyama, Eiki; Enomoto-Iwamoto, Motomi et al. (2014) Mouse limb skeletal growth and synovial joint development are coordinately enhanced by Kartogenin. Dev Biol 395:255-67
Candela, Maria Elena; Cantley, Leslie; Yasuaha, Rika et al. (2014) Distribution of slow-cycling cells in epiphyseal cartilage and requirement of ?-catenin signaling for their maintenance in growth plate. J Orthop Res 32:661-8

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