Pluripotent hemopoietic stem cells give rise to osteoclasts in vitro: effects of rGM-CSF.

Studies involving bone marrow transplantation of osteopetrotic rodents have provided evidence for the lineage of the osteoclast. Recent investigations have demonstrated that pluripotent hemopoietic stem cells (PHSC) isolated from the bone marrow of normal animals cure the skeletal sclerosis and result in the formation of normal osteoclasts when transplanted into ia osteopetrotic rats. A criticism of these findings is that the microenvironment of the osteopetrotic bone and the bone marrow compartment may be unique in its ability to induce the differentiation of these stem cells into osteoclasts. To test this hypothesis, PHSC were co-cultured with fetal metatarsal bones from normal animals. PHSC were isolated from normal bone marrow using FITC-labelled monoclonal antibodies directed against rat Thy 1.1 and fluorescence-activated cell sorting. The PHSC or whole mononuclear bone marrow were co-cultured with 20-day fetal rat metatarsal rudiments. In some cultures, recombinant mouse granulocyte-macrophage colony-stimulating factor (rGM-CSF) (250 U per culture) was added in addition to the PHSC. After 7 days the fetal bones were prepared for light and electron microscopy and the number of osteoclasts generated in vitro was determined. The PHSC isolate generated as many osteoclasts as the whole mononuclear bone marrow. The addition of rGM-CSF did not enhance the generation of osteoclasts in either control bones or in bones cultured with PHSC. These results are equivalent to those reported in the osteopetrotic transplant system.