Changes in the Activity of Genes Involved in the Regulation of Hematopoiesis during Tumorigenesis in Irradiated Mice.

We used 183 F1 CBA×C57Bl hybrid mice to study the delayed effects of low-power long-term γ-irradiation at a dose of 12.6 Gy (10 mGy/min) 8 and 10 months after the treatment. Eight months after the treatment we found the increased expression of the transcription factor NFκB and its target genes iNOS and G-SCF in the bone marrow (BM).

[Searching Radiation Countermeasures using the Model of Prolonged Irradiation of Mice with Low Dose Rate and Evaluation of Their Influence on Heat Shock Protein Genes Expression].

Different radiomodificators (cytokine betaleukine, antioxidant phenoxan, antigipoksant limontar and nucleoside riboxin) were investigated on mice for evaluating their radiation protective capacity against prolonged (21 h) exposure at a dose of 12.6 Gy at a low dose rate of 10 mGy/min. Bone marrow cellularity and endogenic CFUs were used as evaluation criteria 9 days after exposure.

[Comparative analysis of natural and synthetic antimutagens as regulators of gene expression in human cells under exposure to ionizing radiation].

This paper studies the effect of plant peptides of thionine Ns-W2 extracted from seeds of fennel flower (Nigella sativa) and β-purothionine from wheat germs (Triticum kiharae), as well as a synthetic antimutagen (crown-compound), on the expression of several genes involved in the.control of cellular homeostasis, processes of carcinogenesis, and radiation response in human rhabdomyosarcoma cells (RD cells), T-lymphoblastoid cell line Jurkat, and blood cells. All of these agents acted as antimutagens-anticarcinogens, reducing the expression of genes involved in carcinogenesis (genes of families MMP, TIMP, and IAP and G-protein genes) in a tumor cell.

[Expression of P53, NPM1, Kras, c-Myc, p14(ARF) genes in blood cells of cancer patients before and after radiation therapy].

The mRNA levels of P53gene, as well as NPM1, Kras, c-Myc, p14(ARF) genes, which, according to the published data, code for the proteins regulating the p53 activity, were studied using RT-PCR method in blood cells of patients with different localization of tumor process (prostate cancer, breast cancer and head and neck cancer) before and after application of radiation therapy. Changes in gene expression of cancer patients were compared with the control group of healthy donors. We have established that all patients had a decreased level of the Kras gene expression even before radiotherapy; moreover, the group of patients with prostate cancer had a low content of mRNA in NPM1 and p14(ARF), and the group of patients with head and neck cancerhad a reliably reduced mRNA in P53, NPM1 and p14(ARF).

[The comparison of molecular-biochemical and cytogenetic analyses of blood cells of patients long after the acute radiation sickness].

Molecular-biochemical and cytogenetic analyses were made on blood cells of 17 radiation accident victims who, from 1.7 to 43.8 years previously, had suffered acute radiation sickness (ARS) ranging from severity grades I to IV.

[Molecular manifestations of radiation-induced genome instability: the possibility of chemical modification].

The molecular manifestations of radiation-induced genome instability-changes of the DNA structure, the excision DNA repair and the contents of the reactive oxygen forms in bone marrow cells of the repair proficient mice (CBA) and of the repair-defective (101/H) lines in the dynamics up to 185 day after ionizing radiation exposure in the dose of 1.5 Gy were studied. Is was established, that after irradiation in bone marrow cells the descendants with the decreased activity of excision DNA repair and prone to increased changes of DNA structure DHK is arised.

[Sexual differences in a state systems of DNA structure maintenance and generation of reactive oxygen species in somatic cells of mice 101/H reparation-defective strain and manifestation of these differences after exposure to ionizing radiation].

To analyse a role of the factor of a genetic fundamentals of cells in formation of radiation-induced genome instability (RIGI) we investigated a condition of DNA pattern, content of superoxide anion-radical O2*- and a sum of reactive oxigen species (ROS) (O2*-, OH*, H2O2), and also catalase activity in bone marrow cells of male and female mice of 101/H strain in the norm and at once after chronic (10 day) exposure to 200 mGy gamma-radiation. Thus we based on conception about a significance of mechanisms of DNA repair and production of reactive oxygen species (ROS) in development of radiation-induced genome instability (RIGI), and also on the data on sex bound differences in efficiency of DNA repair in reply to impact of the genotoxic agents for male and female mice of 101/H strain. Sex connected differences in redox system of bone marrow cells were established.

[Interrelations between the content of reactive oxygen species and the state of DNA structure in bone marrow cells of mice after whole body gamma-irradiation].

The aim of the research is a further analysis of a problem concerning two (regulatory and damaging) functions of reactive oxygen species (ROS) in viability of organism cells under acute exposure to ionizing radiation. For this purpose the ROS content and the state of DNA structure in bone marrow cells of male CBA and SHK mice have been studied in dynamics, from 15 minutes up to 185 day after acute exposure to a sublethal dose (1.5 Gy) of ionizing radiation.

[Indometofen causes biochemical changes in the blood cells characteristic for a radioresistant state of the body].

The DNA and RNA contents, RNA/DNA ratio, and spontaneous and latex-induced oxidant activity indices of the whole blood were studied in the nitroblue tetrazolium test of mono- and polymorphonuclear blood leucocytes of intact dogs after injection of lipopolysaccharide pyrogenal. Significant changes in the above parameters were revealed for radioresistant (survived) and radiosensitive (lost) animals exposed to a subsequent prolonged gamma irradiation with a lethal dose of 7.64 Gy (LD75/45).

[The effect of the potential antiradiation agent compound HC-1539 on reparative DNA synthesis induced by the damaging action of the chemical mutagen N-nitroso-N-methylurea and radiation].

The influence of NS-1539, a potential anti-irradiation agent and indole analogues of tamoxifen on the DNA repair synthesis in the bone marrow and lymphocytes of peripheral blood was studied. It was found that the DNA repair processes from damages caused by chemical mutagen N-nitroso-N-methylurea or physical factor UV-irradiation in the bone marrow cells after the NS-1539 protection of mice as well as in lymphocytes of peripheral blood of human donors were enhanced. The enhancing of DNA repair synthesis was seen not earlier than 18 hours after the NS-1539 injection to mice in vivo or when NS-1539 was added to lymphocyte suspension in vitro and observed up to the third day.