Hydrocortisone Inhibits Cellular Proliferation by Downregulating Hepatocyte Growth Factor Synthesis in Human Osteoblasts

Abstract

Glucocorticoids have multiple systemic effects that may influence bone metabolism but also directly affect osteoblasts by decreasing their proliferation. Using human osteoblastic SaM-1 cells, we examined whether the effects of hydrocortisone on cellular proliferation are mediated by hepatocyte growth factor (HGF). Human osteoblasts constitutively express both HGF and c-Met, its receptor. Hydrocortisone decreased the gene and protein expression of HGF as well as proliferation in SaM-1 cells. These hydrocortisone (0.01-1 µM)-induced decreases in HGF synthesis and cellular proliferation occurred in a concentration-dependent manner. However, no hydrocortisone (0.01-1 µM)-induced decrease in cellular proliferation was observed in human osteosarcoma-derived cells (HOS and SaOS-2), which are not able to produce HGF. In the cellular proliferation in SaM-1 cells, the decrease was blocked concentration-dependently by exogenously applied HGF (0.01-3 ng/ml). Furthermore, SU11274 (1 µM), a highly specific inhibitor of c-Met, suppressed the proliferation of SaM-1 cells, but not HOS cells. From these results, we concluded that hydrocortisone inhibits the proliferation of SaM-1 cells by interrupting the autocrine/paracrine loop via the downregulation of HGF synthesis.