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Published byΔάμαλις Καλύβας Modified over 6 years ago
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Characterization of diabetic osteoarthritic cartilage and role of high glucose environment on chondrocyte activation: toward pathophysiological delineation of diabetes mellitus- related osteoarthritis M.-C. Laiguillon, A. Courties, X. Houard, M. Auclair, A. Sautet, J. Capeau, B. Fève, F. Berenbaum, J. Sellam Osteoarthritis and Cartilage Volume 23, Issue 9, Pages (September 2015) DOI: /j.joca Copyright © 2015 Osteoarthritis Research Society International Terms and Conditions
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Fig. 1 Responsiveness of cartilage explants from osteoarthritic (OA) diabetic and non-diabetic patients to interleukin 1β (IL-1β) stimulation. IL-6 and prostaglandin E2 (PGE2) release by cartilage explants with or without IL-1β stimulation (5 ng/mL). Each symbol represents a patient, non-diabetic (ND) n = 5 (○) or diabetic (D) n = 5 (●). The bar represents the mean for each condition and 95% confidence interval is represented. †P = 0.016, *P = 0.03, ‡P = 0.048. Osteoarthritis and Cartilage , DOI: ( /j.joca ) Copyright © 2015 Osteoarthritis Research Society International Terms and Conditions
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Fig. 2 Potentiating effect of high glucose on pro-inflammatory induction of murine chondrocytes stimulated with IL-1β. Induction of pro-inflammatory mediators with normal glucose (5 mM) and high glucose (25 mM) in murine chondrocytes treated with IL-1β (5 ng/mL) at 24 and 72 h. A, Quantitative RT-PCR (qRT-PCR) analysis of mRNA levels of IL-6 and cyclooxygenase 2 (COX2) relative to that of hypoxanthine guanine phosphoribosyltransferase (HPRT), n = 5 for each condition. B, IL-6 and PGE2 release, n = 5 for each condition. Each symbol represents an experiment from one litter of mice in normal glucose (○) and high glucose (●) conditions. The bar represents the mean for each condition and 95% confidence interval is represented. *P = 0.031. Osteoarthritis and Cartilage , DOI: ( /j.joca ) Copyright © 2015 Osteoarthritis Research Society International Terms and Conditions
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Fig. 3 Effect of high glucose on radioactive 2-deoxyglucose uptake and of osmotic stress in murine chondrocytes stimulated with IL-1β. A, Assay of glucose uptake by murine chondrocytes. Measurement of disintegration per minute (DPM) of the intracellular radioactive 2-deoxyglucose for total intracellular protein, n = 3 for each condition. B, Impact of osmotic stress on the expression of IL-6 by murine chondrocytes with or without IL-1β stimulation. Cells were incubated with normal glucose (5.5 mM, ○), high glucose (25 mM, ●) or mannitol (19.5 mM, ⊗). qRT-PCR analysis of mRNA levels of IL-6 relative to that of HPRT, n = 4 for each condition. Each symbol represents an experiment from one litter of mice. The bar represents the mean for each condition. Osteoarthritis and Cartilage , DOI: ( /j.joca ) Copyright © 2015 Osteoarthritis Research Society International Terms and Conditions
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Fig. 4 Involvement of high glucose uptake and polyol pathway activation in murine chondrocytes stimulated with IL-1β. A, Involvement of glucose uptake on pro-inflammatory chondrocyte activation. Cells were pre-treated for 30 min with cytochalasin B (Cyt; 1 μM). Protein release of IL-6, n = 5 for each condition. B, Involvement of polyol pathway activation in chondrocyte activation with normal or high glucose in IL-1β–stimulated murine chondrocytes. Cells were treated with epalrestat (Epal, 10 μM). Protein release of IL-6, n = 5 for each condition. Each symbol represents an experiment from one litter of mice in normal glucose (○) and high glucose (●) conditions. The bar represents the mean for each condition and 95% ci is represented.*P = 0.031. Osteoarthritis and Cartilage , DOI: ( /j.joca ) Copyright © 2015 Osteoarthritis Research Society International Terms and Conditions
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Fig. 5 Effect of high glucose and pro-inflammatory stimulation with IL-1β on generation of oxidative stress reagents by murine chondrocytes. Measurement of ROS production by fluorimetric assay of DCFDA (A) and by colorimetric assay of NBT (B), n = 5 for each condition. Data are fold induction compared to the control condition without IL-1β at 24 h and at 72 h, for intracellular protein quantity. C, Assay of extracellular nitrite production, n = 5 for each condition. Each symbol represents an experiment from one litter of mice in normal glucose (○) and high glucose (●) conditions. The bar represents the mean for each condition and 95% confidence interval is represented.*P = 0.031. Osteoarthritis and Cartilage , DOI: ( /j.joca ) Copyright © 2015 Osteoarthritis Research Society International Terms and Conditions
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Fig. 6 Involvement of high glucose and IL-1β-induced oxidative stress in the pro-inflammatory profile induction of murine chondrocytes. Protein release of IL-6. Cells were treated with a specific mitochondrial ROS scavenger, MitoTEMPO (50 μM) (A, n = 4 for each condition) and an inhibitor of NO-synthase, l-NAME (B, n = 5 for each condition). Each symbol represents an experiment from one litter of mice in normal glucose (○) and high glucose (●) conditions. The bar represents the mean for each condition and 95% confidence interval is represented.*P = 0.031. Osteoarthritis and Cartilage , DOI: ( /j.joca ) Copyright © 2015 Osteoarthritis Research Society International Terms and Conditions
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Fig. 7 Hypothetical scheme of high-glucose conditions potentiating the pro-inflammatory effect of IL-1β on articular chondrocytes. Under high glucose, glucose uptake is increased when cells are in a pro-inflammatory condition (i.e., IL-1β stimulation) induced by increased expression of glucose transporters GLUT-1 and -9. Intracellular glucose increase is responsible for the potentiation of the pro-inflammatory effect of IL-1β by activating the alternative polyol pathway, the production of mitochondrial ROS and inducible nitric oxide synthase (iNOS) for the production of NO. This activation leads to IL-6 and PGE2 release. Osteoarthritis and Cartilage , DOI: ( /j.joca ) Copyright © 2015 Osteoarthritis Research Society International Terms and Conditions
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