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P98 OESTROGEN DEFICIENCY LEADS A DECREASE OF THE NUMBER OF CHONDROCYTES IN RABBIT GROWTH PLATE



Abstract

In the pubertal growth plate, sex hormones play important roles for the regulation of the proliferation, differentiation, maturation and programmed death of chondrocytes. Many studies have been reported on the regulation of oestrogen in long bone growth, however, some of the mechanisms have remained unclarified to date including its role for cell kinetics in the growth plate chondrocytes. The aim of this study was to clarify the effect of the deficiency of oestrogen on growth plate chondrocytes.

We obtained the growth plates of femoral head from the normal and ovariectomized Japanese white rabbits at 10, 15, 20 and 25 weeks. Ovariectomy was performed at 8 weeks. The cell kinetics of chondrocytes as defined by the numbers of proliferating and programmed dying cells was investigated using immunohistological methods.

The lengths of the femur were almost same both in the ovariectomised and normal rabbits. The height of the growth plate was larger in the former. The total number of chondrocytes in the ovariectomised rabbits was less than that of normal rabbits of the same age. Immunostaining of proliferating cell nucleous antigen (PCNA) showed a decrease number of proliferating chondrocytes and that of caspase-3 indicated a little increased number of apoptotic chondrocytes.

Oestrogen regulates endochondral bone formation through several pathways. It directly binds oestrogen receptor alpha and beta, and the former accelerates longitudinal bone growth whereas the latter represses it. Another pathway is through the GH-IGF-I axis: it closely interacts with GH and IGF-I for the control of longitudinal bone growth. In addition, there might be other mediators including transforming growth factor-beta, other IGFs and still unknown paracrine or auto-crine factors as IHH PTHrP. Our study suggests that in the rabbit growth plate during puberty, oestrogen mainly acts through the GH-IGF-I axis since its defi-ciency declined the proliferating ability of chondrocytes, which led the decrease of the number of chondrocytes.

Correspondence should be addressed to Mr Carlos Wigderowitz, Senior Lecturer, University Department of Orthopaedic and Trauma Surgery, Ninewells Hospital and Medical School, Dundee DD1 9SY.