[Telomerase activity, mTert gene expression and the telomere length in mouse mesenchymal stem cells in the late period after γ- and γ,n-irradiation and in the tumors developed from these cells]. / Aktivnost' telomerazy, ékspressiia gena mTert i dlina telomer v otdalennyi period posle γ- i γ,n-oblucheniia v mezenkhimal'nykh stvolovykh kletkakh myshi i v opukholiakh, obrazovavshikhsia iz étikh kletok.

In proliferating normal and tumor cells, the telomere length (TL) is maintained by high telomerase activity (TA). In the absence of TA the TL maintenance involves a mechanism of alternative lengthening of telomeres (ALT). The aim of this study was to investigate the level of TA, the mTert expression and TL in cultured normal and transformed by γ- and γ,n-irradiation mesenchymal stem cells (MSCs) from mouse bone marrow, in sarcomas that developed after the transplantation of these cells into syngeneic mice, and in fibrosarcoma cell lines obtained from these tumors to find out the role of AT or ALT in maintaining TL in these cells. During prolonged cultivation of normal and transformed under the influence of γ- (1 Gy and 6 Gy) and γ,n-irradiation (0.05 Gy, 0.5 Gy, and 2 Gy) MSCs from mouse bone marrow, a decrease in TA was detected in irradiated cells. Even deeper decrease in TA was found in sarcomas developed after administration of transformed MSCs to syngeneic mice and in fibrosarcoma cell lines isolated from these tumors in which TA was either absent or was found to be at a very low level. TL in three of the four lines obtained was halved compared to the initial MSCs. With absent or low TA and reduced TL, the cells of all the obtained fibrosarcoma lines successfully proliferated without signs of a change in survival. The mechanism of telomere maintainance in fibrosarcoma cell lines in the absence of TA needs further investigation and it can be assumed that it is associated with the use of the ALT. The detected decrease or absence of TA in transformed under the action of irradiation MSCs with the preservation or even an increase in the telomerase gene expression may be associated with the formation of inactive splicing variants, and requires further study. The obtained lines of transformed MSCs and fibrosarcomas with TA and without the activity of this enzyme can be a useful model for studying the efficacy of TA and ALT inhibitors in vitro and in vivo.

CHARACTERISTICS OF TUMORS THAT DEVELOPED IN MICE AFTER TREATMENT WITH IRRADIATED SYNGENEIC MESENCHYMAL STEM CELLS OF BONE MARROW.

Mesenchymal stem cells (MSCs) are present in almost all organs and tissues of the organism. It is believed, that MSCs could be transformed into cancer stem cells spontaneously or under influence of genotoxic factors and trigger the growth of tumors. The aim of this work was to study the possibility of malignant transformation of cultured MSCs from murine bone marrow (MSCs-BM) after g-irradiation in vitro and characterize of biochemical and histological features of the tumors that developed after transplantation of MSCs-BM into syngeneic mice. Tumors were observed in 3­4 months after MSCs-BM transplantation. After administration of MSCs-BM irradiated at a dose of 1 Gy, tumors were seen in 2 of 5 mice. After transplantation of MSCs-BM irradiated at a dose of 6 Gy, tumors were found in all 5 of 5 mice. In the case of control MSCs-BM, only one tumor appeared in 6 months after transplantation. The telomerase activity was two times higher in the tumor developed from 6 Gy irradiated MSCs-BM than from 1 Gy irradiated MSCs-BM. The tumors developed from control and irradiated MSCs-BM were classified as multicomponent mesenchymomas («mixture of sarcomas¼). Histological examination showed that tumors contained tissue areas of different histogenesis. Thus, MSCs-BM g-irradiated at doses of 1 and 6 Gy and, much less frequently, control MSCs-BM can transform into tumor cells and induce development of multicomponent mesenchymomas.