Author
Listed:
- Carmen Corciulo
(Department of Medicine-Division of Translational Medicine-NYU School of Medicine)
- Matin Lendhey
(Department of Orthopedic Surgery-NYU School of Medicine)
- Tuere Wilder
(Department of Medicine-Division of Translational Medicine-NYU School of Medicine)
- Hanna Schoen
(Department of Medicine-Division of Translational Medicine-NYU School of Medicine)
- Alexander Samuel Cornelissen
(Department of Medicine-Division of Translational Medicine-NYU School of Medicine)
- Gregory Chang
(Department of Radiology-NYU School of Medicine)
- Oran D. Kennedy
(Department of Orthopedic Surgery-NYU School of Medicine
the Royal College of Surgeons in Ireland)
- Bruce N. Cronstein
(Department of Medicine-Division of Translational Medicine-NYU School of Medicine
Department of Medicine-Division of Rheumatology-NYU School of Medicine)
Abstract
Osteoarthritis (OA) is characterized by cartilage destruction and chondrocytes have a central role in this process. With age and inflammation chondrocytes have reduced capacity to synthesize and maintain ATP, a molecule important for cartilage homeostasis. Here we show that concentrations of ATP and adenosine, its metabolite, fall after treatment of mouse chondrocytes and rat tibia explants with IL-1β, an inflammatory mediator thought to participate in OA pathogenesis. Mice lacking A2A adenosine receptor (A2AR) or ecto-5′nucleotidase (an enzyme that converts extracellular AMP to adenosine) develop spontaneous OA and chondrocytes lacking A2AR develop an ‘OA phenotype’ with increased expression of Mmp13 and Col10a1. Adenosine replacement by intra-articular injection of liposomal suspensions containing adenosine prevents development of OA in rats. These results support the hypothesis that maintaining extracellular adenosine levels is an important homeostatic mechanism, loss of which contributes to the development of OA; targeting adenosine A2A receptors might treat or prevent OA.
Suggested Citation
Carmen Corciulo & Matin Lendhey & Tuere Wilder & Hanna Schoen & Alexander Samuel Cornelissen & Gregory Chang & Oran D. Kennedy & Bruce N. Cronstein, 2017.
"Endogenous adenosine maintains cartilage homeostasis and exogenous adenosine inhibits osteoarthritis progression,"
Nature Communications, Nature, vol. 8(1), pages 1-13, August.
Handle:
RePEc:nat:natcom:v:8:y:2017:i:1:d:10.1038_ncomms15019
DOI: 10.1038/ncomms15019
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