High radiosensitivity of the mineralization capacity of adult murine bone marrow in vitro to continuous alpha-irradiation compared to acute X-irradiation.

Adult BALB/c mice, injected with osteosarcomogenic amounts of 241Am (between 40 and 500 Bq/g mouse) showed an impaired mineralization capacity of their femoral bone marrow. This effect persisted until at least 1 year after 241Am injection and was expressed after incubation of bone marrow cells in vitro in conditions allowing osteogenic differentiation. The mineralization capacity of marrow in vitro was evaluated by measurement of 85Sr uptake from the tissue culture medium. Two osteogenic assays were used: in marrow cultured as an intact organ (marrow organ cultures), reduced mineralization was observed in mice given 149 Bq 241Am/g mouse or more (skeletal dose rate of 25 mGy/day), in stromal marrow cells cultured from adherent cell layers and subsequently brought into a three-dimensional (3D) mineralizing condition (stromal 3D cultures), reduced 85Sr uptake was observed from the lowest dose level tested (42 Bq 241Am/g mouse, skeletal dose rate of 7 mGy/day). Taking into account that only a fraction of the skeletal alpha-dose reached the marrow of the femoral diaphyses, marrow organ cultures and stromal 3D cultures exhibited high radiosensitivity to alpha-irradiation in vivo. However, after acute X-irradiation of marrow in vivo or in vitro prior to initiation of the marrow organ cultures, X-ray doses of 4 Gy or higher were needed to significantly impair the mineralization capacity of marrow organ cultures in vitro. Our data demonstrated that the osteogenic cells from the bone marrow are subjected to long-term damage after low doses of continuous alpha-irradiation in vivo.