[The effect of cadmium on the survivability of colony-forming hematopoietic cells in mice exposed to x-ray irradiation]. / Vliianie kadmiia na vyzhivaemost' kolonieobrazushchikh krovetvornykh kletok u myshei pri rentgenovskom obluchenii.

It has been reported elsewhere that in addition to enhancing the expression of metallothionein genes, the previous injection of cadmium salts into sublethally X-irradiated mice increases by 10 times the number of endogenous spleen colonies. To understand the mechanism of the strong radioprotective cadmium effect donors and recipients were treated separately. It is shown that the survival of exogenous bone marrow colony-forming cells in lethally irradiated recipient remains at the control level independently of the donor cadmium treatment, whereas the injection of cadmium nitrate to recipient mice leads to the stimulation of colony formation by 1.7-1.8 times. The data allow to conclude that the cadmium effect on the survival of colony-forming hemopoietic murine cells after X-irradiation is not mediated by the enhanced expression of metallothionein genes.

[The effect of recombinant human interleukin-1 beta on the repopulation of bone-marrow colony-forming cells in mice subjected to the action of radiation and burns]. / Vliianie rekombinantnogo interlekina-1 beta cheloveka na repopuliatsiiu kostnomozgovykh kolonieobrazuiushchikh kletok u myshei, podvergnutykh deistviiu radiatsii i ozhoga.

The radioprotective and restorative (therapeutic) effects of human recombinant interleukin-1 beta (IL-1 beta) on the population of bone marrow CFU-S of mice, subjected to either sublethal doses of ionising irradiation itself or the same irradiation in combination with thermal burn, are investigated. Both the effects of the agent are registered under both in vitro and in vivo irradiation in semi-, syn- and allogeneic animals. If the irradiation was combined with thermal burn, the "therapeutic" effect of the agent was demonstrated at irradiation dose equal to 3.06 Gy rather than to 6.12 Gy. If the bone marrow cells were irradiated in vitro in dose 3.06 Gy with the following heat shock at 42 degrees C for 10-20 min, the "therapeutic" effect of IL-1 beta was seen only if it was added to cells before rather than after irradiation. The radioprotective effect of IL-1 beta is maintained under in vitro, as well as in vivo conditions in the allogeneic system of transplantation of the CBA donor bone marrow to the C57BL mice.