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Research

INDOMETHACIN INDUCES DIFFERENTIAL EFFECTS ON IN VITRO ENDOCHONDRAL OSSIFICATION DEPENDING ON THE DIFFERENTIATION STAGE OF THE CHONDROCYTE

European Orthopaedic Research Society (EORS) 24th Annual Meeting, 14–16 September 2016. Part 2.



Abstract

Heterotopic ossi?cation is the abnormal formation of bone in soft tissues and is a frequent complication of hip replacement surgery. Heterotopic ossi?cations are described to develop via endochondral ossification and standard treatment is administration of indomethacin. It is currently unknown how indomethacin influences heterotopic ossi?cation on a molecular level, therefore we aimed to determine whether indomethacin might influence heterotopic ossi?cation via impairing the chondrogenic phase of endochondral ossification.

ATDC5, human bone marrow stem cells (hBMSCs) and rabbit periosteal agarose cultures were employed as progenitor cell models; SW1353, human articular chondrocytes and differentiated ATDC5 cells were used as matured chondrocyte cell models. All cells were cultured in the presence of (increasing) concentrations of indomethacin. The action of indomethacin was confirmed by decreased PGE2 levels in all experiments, and was determined by specific PGE2 ELISA. Gene- and protein expression analyses were employed to determine chondrogenic outcome.

Progenitor cell models differentiating in the chondrogenic lineage (ATDC5, primary human bone marrow stem cells and ex vivo periosteal agarose cultures) were treated with increasing concentrations of indomethacin and a dose-dependent decrease in gene- and protein expression of chondrogenic and hypertrophic markers as well as decreased glycosaminoglycan content was observed. Even when hypertrophic differentiation was provoked the addition of indomethacin resulted in decreased hypertrophic marker expression. Interestingly, when mature chondrocytes were treated with indomethacin, a clear increase in collagen type 2 expression was observed. Similarly, when ATDC5 cells and bone marrow stem cells were pre-differentiated to obtain a chondrocyte phenotype and indomethacin was added from this time point onwards, low concentrations of indomethacin also resulted in increased chondrogenic differentiation.

Indomethacin induces differential effects on in vitro endochondral ossification, depending on the chondrocyte's differentiation stage, with complete inhibition of chondrogenic differentiation as the most pronounced action. This observation may provide a rationale behind the elusive mode of action of indomethacin in the treatment of heterotopic ossifications.