Cartilage degradation, the hallmark of rheumatoid arthritis and osteoarthritis, is closely linked to the tissue's state of mechanical usage. Cartilage breakdown can be induced by mechanical overuse and exacerbated by disuse; however, mechanical loading at physiologically relevant levels can protect joint tissues from degradation. Yet the cellular mechanisms that mediate both the protective effects of physiological loading and the damaging effects of inappropriate mechanical usage remain unclear. We recently identified a novel transcriptional regulator CITED2 (CBP/p300-lnteracting Transactivator with ED-rich tail 2) that is induced in chondrocytes and other cells by physiologically relevant levels of mechanical loading, and whose expression is inversely correlated with the production of matrix metalloproteinases (MMPs) implicated in cartilage degradation. We therefore hypothesize that CITED2 is a key element of the regulatory pathway that mediates the effects of mechanical loading on cartilage degradation. The proposed studies have three specific aims directed at characterizing this signaling pathway: (1) to determine the relationship between changes in CITED2 expression and the regulation of MMPs in chondrocytes responding to mechanical loading (intermittent hydrostatic pressure); (2) to identify molecular mechanisms by which CITED2 regulates the expression of MMP genes; and (3) to identify specific mechanisms by which mechanical loading regulates the expression of CITED2. In these studies we will experimentally modify the expression or activity of molecular components participating in this signaling pathway and monitor resulting changes in the expression of the appropriate target genes (CITED2, MMPs). We will also characterize interactions between molecular members of these regulatory pathways by in vitro and in vivo binding assays. Finally we will test whether the effects of mechanical loading on MMP expression can be mimicked using a biological regulator that has been found to target a specific molecular component of this novel molecular switching mechanism. The results of these studies will thus identify novel targets for therapeutic approaches to combat joint degenerative diseases, and will improve our understanding of the fundamental biological processes underlying both normal connective tissue turnover and pathologic degradation. ? ? ?

Agency
National Institute of Health (NIH)
Institute
National Institute of Arthritis and Musculoskeletal and Skin Diseases (NIAMS)
Type
Research Project (R01)
Project #
1R01AR050968-01A2
Application #
7208271
Study Section
Skeletal Biology Structure and Regeneration Study Section (SBSR)
Program Officer
Tyree, Bernadette
Project Start
2006-09-18
Project End
2011-08-31
Budget Start
2006-09-18
Budget End
2007-08-31
Support Year
1
Fiscal Year
2006
Total Cost
$298,320
Indirect Cost
Name
Mount Sinai School of Medicine
Department
Orthopedics
Type
Schools of Medicine
DUNS #
078861598
City
New York
State
NY
Country
United States
Zip Code
10029
He, Z; Leong, D J; Zhuo, Z et al. (2016) Strain-induced mechanotransduction through primary cilia, extracellular ATP, purinergic calcium signaling, and ERK1/2 transactivates CITED2 and downregulates MMP-1 and MMP-13 gene expression in chondrocytes. Osteoarthritis Cartilage 24:892-901
Zhang, Zhuo; Leong, Daniel J; Xu, Lin et al. (2016) Curcumin slows osteoarthritis progression and relieves osteoarthritis-associated pain symptoms in a post-traumatic osteoarthritis mouse model. Arthritis Res Ther 18:128
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Leong, Daniel J; Choudhury, Marwa; Hanstein, Regina et al. (2014) Green tea polyphenol treatment is chondroprotective, anti-inflammatory and palliative in a mouse post-traumatic osteoarthritis model. Arthritis Res Ther 16:508
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Sun, Hui B; Zhao, Liming; Tanaka, Shigeo et al. (2012) Moderate joint loading reduces degenerative actions of matrix metalloproteinases in the articular cartilage of mouse ulnae. Connect Tissue Res 53:180-6

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