Effects of celecoxib on the expression of osteoprotegerin, energy metabolism and cell viability in cultured human osteoblastic cells

Effects of celecoxib on the expression of osteoprotegerin, energy metabolism and cell viability in cultured human osteoblastic cells

The selective COX-2 inhibitor celecoxib is widely used to treat pain and inflammation in rheumatoid arthritis, osteoarthritis, and ankylosing spondylitis. The drug has well-known important effects on immune cells but its direct and/or indirect influence on osteoblasts has not yet been explored in de...

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Published in:Clinical and experimental rheumatology Vol. 27; no. 1; pp. 99 - 107
Main Authors: KOLAR, P, LACH, S, BUTTGEREIT, F, GABER, T, MASCHMEYER, P, DZIURLA, R, TRIPMACHER, R, KROCKER, D, MATZIOLIS, G, PERKA, C, BURMESTER, G.-R
Format: Journal Article
Language:English
Published: Pisa Clinical and Experimental Rheumatology 2009
Subjects:
Biological and medical sciences
Bones, joints and connective tissue. Antiinflammatory agents
Celecoxib
Cell Line, Tumor
Cell Survival - drug effects
Cyclooxygenase Inhibitors - pharmacology
Diseases of the osteoarticular system
Dose-Response Relationship, Drug
Energy Metabolism - drug effects
Female
Glucose Transporter Type 1 - drug effects
Glucose Transporter Type 1 - metabolism
Humans
Medical sciences
Osteoblasts - drug effects
Osteoprotegerin - metabolism
Pharmacology. Drug treatments
Pyrazoles - pharmacology
Sulfonamides - pharmacology
Human
Cell culture
Energy metabolism
Oxygen
hypoxia-inducible-factor-la
Rheumatology
Oxygen consumption
Celecoxib
Glucose
Osteoblasts
Non steroidal antiinflammatory agent
cell viability
Osteoblast
Hypoxia
glucose transporter-1
osteoprotegerin
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Summary:The selective COX-2 inhibitor celecoxib is widely used to treat pain and inflammation in rheumatoid arthritis, osteoarthritis, and ankylosing spondylitis. The drug has well-known important effects on immune cells but its direct and/or indirect influence on osteoblasts has not yet been explored in detail. This study aimed to investigate the dose-dependent effects of celecoxib on cell viability, energy metabolism and bone remodeling processes in cultured human osteoblastic cells. Primary human osteoblasts and MG-63 cells were incubated with celecoxib (2, 10, 50microM). Cell viability and apoptosis were determined by trypan blue, 7AAD and Annexin-V staining. Effects on cellular oxygen consumption were measured amperometrically using a Clark electrode. mRNA expression of GLUT-1 and OPG was determined by RT-PCR; OPG protein secretion by ELISA and HIF-1alpha protein expression by immunoblotting. While celecoxib at a concentration of 2 and 10microM showed only marginal effects, a suprapharmacological concentration of 50microM influenced viability and energy metabolism, as well as OPG expression and secretion of osteoblastic cells. Cell viability was significantly reduced by celecoxib treatment. Celecoxib at 50microM stimulated oxygen consumption significantly. Corresponding experiments with the protonophore FCCP suggest that this effect is due to mitochondrial uncoupling. After 24h, GLUT-1 mRNA expression was significantly increased. HIF-1alpha protein was not expressed under any of our experimental conditions. We also showed that celecoxib at 50microM significantly inhibits OPG protein secretion leading to a compensative increase of mRNA expression. Pronounced effects of celecoxib on cell viability (reduction), oxygen consumption (stimulation), GLUT-1 mRNA expression (stimulation) and OPG protein secretion (inhibition) in osteoblastic cells were observed only at 50microM-a concentration not reached by therapeutic doses giving plasma concentrations less than 10microM. On the contrary, celecoxib at 2 and 10microM showed only marginal effects, suggesting that celecoxib administration is probably safe with respect to bone metabolism in cases requiring potent treatment of pain and inflammation. However, higher intracellular concentrations, which might occur through accumulation, necessitate investigations with high concentrations.
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ISSN:0392-856X
1593-098X