[Mitochondria-targeted antioxidant SkQR1 selectively protects MDR-negative cells against ionizing radiation].

Radioprotection appeared to be an important problem of today due to atom energetic development and utilization of radiation material in the industry, science and medicine. It has been shown that mitochondrial targeted antioxidant SkQR1 could attenuate radiation injury of human erythroleukemia K562 cells. Pretreatment with SkQR1 before irradiation decreased DNA double strand breaks formation, diminished the number of chromosomal aberrations and suppressed delayed ROS production. Prevention of oxidative stress and normalization of mitochondrial function by mitochondria-targeted antioxidants may be a potential therapeutic strategy not only against immediate consequences of radiation, but, either against its late consequences such as genomic instability. SkQR1 did not protect against radiation-induced damage the K562 subline with high level of multidrug resistance (MDR) due to SkQR1 extrusion with Pgp 170 MDR pump. We suggest that mitochondria-targeted antioxidants might be used for selective protection of normal cells against radiation-induced damage without interference with radiotherapy of MDR-positive tumors.

[Cytogenetic and immunological characteristics of stimulated human peripheral blood lymphocytes are connected with cell proliferation rates].

In the current study the authors investigated the connection between the proliferation rate of stimulated hu- man peripheral blood lymphocytes with some other characteristics of the population: expression of immunological markers, spontaneous genome damage, radiosensitivity. The population's proliferation index (PI) was taken as a measure of the rate. It was calculated using the composition of a cell population, which was cyto- kinesis-blocked with a cytochalasin B. If the genotoxic action is absent, the PI does not correlate with the spontaneous frequency of cells with micronuclei or with cell radiosensitivity, but is tightly linked with immunological indexes. It has been determined that after stimulation the level of marker-positive cells (CD25, CD69 and Ki67) is closely related to PI and is greater in the populations with lower proliferation rates. Irradiation of a cell culture 48 h after stimulation at a dose of 1 Gy leads to a correlation between PI and radiosensitivity, measured directly after the irradiation and in the same time frame as the PI measured in the non-irradiated population. The irradiated population's PI is not connected with the level of marker expression.

[Individual variability of immunological markers, radiosensitivity and oxidative status in blood lymphocytes of Moscow residents].

Expression of activation (CD69) and proliferation (Ki67) markers, their connection with each other, with the oxidative status (reactive oxygen species--ROS) and with radiosensitivity (determined by micronucleus test) have been studied on stimulated blood lymphocytes from Moscow inhabitants. It was shown that the content of T-lymphocytes with the expressed CD69 and the content of T-lymphocytes with the expressed Ki67 markers correlate (r = 0.571; p = 0.0004). We can suppose that expression of the CD69 marker (24 h after PHA stimulation) is needed for the cell cycle progression, but it is not enough for the high expression of Ki67 markers 48 h after stimulation (DNA synthesis phase). It was discovered that T-lymphocytes with the CD69 marker or T-lymphocytes with the Ki67 marker are connected by the negative correlation with the frequency of irradiated cell with micronucleus (MN) r = -0.487; p = 0.010; r = -0.440; p = 0.008, respectively. So we can suppose that lymphocyte radiosensitivity decreased with the increase of expression activation and proliferation markers. It was shown that radiosensitivity determined by MN test is not connected with the oxidative status determined by the reactive oxygen species content including superoxide anion radicals. It is possible to explain by the fact that the ROS concentration has been determined in non-stimulated lymphocytes, but frequencies of cells with MN - in the stimulated cells 48 h after stimulation. Using separate analysis of individual differences by the studied parameters that were determined in the same people, it was shown that individual differences are high enough in the same cases. For example, the radiosensitivity when cells were irradiated 48 h after stimulation, ROS concentration, cell content with activation and proliferation markers. In conclusion, we can say that we failed to find important correlation between the parameters studied. However, the presence of individual differences in the marker expression, the frequency of MN cells, the oxidative status in the usual inhabitants, typical donors in Moscow, is very important.

[Methyltetrazolium bromide (MTT) was applied for bioassay of environmental radioactivity in vivo].

The MTT-assay is a colorimetric assay that measures the activity of enzymes that reduce MTT (a yellow tetrazolium bromide) in living cells. The MTT-test has been traditionally applied for the analysis of drug cytotoxicity in vitro. In our study MTT-assay was first applied for the investigation in vivo of the mechanisms of non-targeted effects of radiation and development of stress in multicellular crustaceans Daphnia magna. MTT test was based on the analysis of variation in the optical density of the irradiated Daphnia, which is proportional to the amount of formazan formed as a result of restoring MT with the help of dehydrogenases. So this indicator measures the effectiveness of the toxic effect of gamma-radiation. It describes the change in the balance of normal and damaged cells, suppression of the total dehydrogenase activity and other factors that are responsible for the metabolism of a multicellular organism. Daphnia were exposed to acute 60Co gamma-rays. According to our data, the effectiveness of toxicity was significantly raised in the two groups exposed to 100 and 1000 mGy of gamma-rays. Given the results of in vitro studies, our data therefore indicate that the compromised viability of irradiated Daphnia may be attributed to the cytotoxic effects within the dose-range of 100 and 1000 mGy. The results obtained in this study show that Daphnia represent a very useful experimental model, which allows a very efficient and quick analysis of many aspects of non-targeted effects of ionising radiation.

[Influence of ionizing radiation on the parameters of oxidative stress markers in the rat liver and thymus].

Influence of ionizing radiation on the parameters of oxidative stress markers in the liver and thymus of the rats exposed to gamma-radiation 60Co at a doze of 4 Gy was investigated. The animals were decapitated on the 1, 4, 7, 10, 14, 22 and 30th day after irradiation and cell suspensions from the liver and thymus were obtained. After centrifugation, the content of MDA, the spontaneous and NADH-induced synthesis of superoxide anion radical of oxygen, the content of total and free iron were determined in the cellular sediment and centrifugate containing intercellular fluid. It is shown that the content of MDA and the levels of spontaneous and NADH-induced synthesis of superoxide anion radical of oxygen increases in intercellular fluid and thymus and liver cells on the 1st day after radiation exposure. In the liver, these parameters are normalized by the 4th day and do not significantly differ from the control level in the period of time following radiation exposure. In thymus, as compared with liver, the level of oxidative stress parameters increases by the 4th day after radiation and remains at the raised level within 22 days after irradiation exposure. It is shown that the content of free iron in thymus cells of irradiated animals increases 3.6 times by the 4th day and reliably exceeds the control level within the next 22 days. Radiation does not lead to any changes in the content of free iron in liver cells. Different levels of the free iron content can serve the reason for various sensitivity of oxidative stress markers in thymus and liver cells to radiation exposure.

[Changes in cellular radiosensitivity after low dose irradiation].

When the adaptive response (AR) was studied on human blood lymphocytes, a new dependence was discovered. This dependence defines the direction of the radiosensitivity change after a low dose of irradiation. Using micronucleus (MN) test with cytochalasin B the dependence between the cell reaction after low level irradiation and radiosensititvity (the effect after irradiation at the dose of 1 Gy) was observed. The negative correlation between the frequency of AR manifestation, sensibilization, intermediate links and radiosensitivity was discovered. This regularity is observed in the population of Moscow, Obninsk, Chelyabinsk region (irradiated and control) inhabitants, Chernobyl accident liquidators, Moscow children, in individuals with Hodgkin's lymphoma before and during treatment. The negative correlation is also noted by AR determination with two irradiation schemes: in one or two different cell cycle phases (G1-G1 or G1-G2). Similar links are observed using the chromosome methaphase analysis (the frequency of cells with chromosome aberrations). So, the results of the experiments conducted allow us to suppose that the connection between the cell radiosensitivity and a different type of reaction after low dose irradiation--from AR to the increase in radiosensitivity (sensibilization) is a general regularity. AR is induced by low level irradiation and high cell radiosensitivity, while sensibilization is induced by low radiosensitivity. Since AR and sensibilization can be induced not only by irradiation, but many different chemicals and physical agents, the described correlation can be observed in the case of different exposures. Cellular AR and sensibilization are integral indexes depending on many genetic and epigenetic factors, as well as on the initiation of a large number of events. However, the discovered mechanisms of interrelations are still difficult to explain.

[Molecular-biological properties of blood lymphocytes of Hodgkin's lymphoma patients. Plausible possibility of treatment effect prognosis].

Hodgkin's lymphoma (HL) patients were investigated before and during chemical and radiation therapy. The properties of peripheral blood lymphocytes of the HL patients before treatment have been compared with healthy donors and the patients during the treatment. The genetic damage--frequency of cells with micronuclei (MN), the level of DNA single- and double-strand breaks (SSB and DSB), DNA-protein cross-links (DPC) have been studied. Biochemical and physiological parameters have been compared as well: the concentration of reactive oxygen species (ROS), the ability to the adaptive response induction. The radiosensitivity of lymphocytes in vitro exposed to the 1 Gy irradiation has also been determined (by MN test). It was shown that in Hodgkin's lymphoma patients' lymphocytes (in comparison with healthy donors) the frequency of cells with MN does not change, the level of SSBs and DSBs increases, the amount of DPC does not change, and ROS concentration (on average) significantly increases because of the part of the population that have high ROS content. The ROS concentration decreases to control level, the frequency of cells with MN increases, the level of DSBs does not change but the level of DPCs (which prevents the determination of DSB) increases in the patients during treatment. It was also discovered that lymphocyte radiosensitivity correlates with the MN cells frequency before treatment and the ROS concentration. These results make it possible to suppose that the high MN frequency and high ROS concentration in Hodgkin's lymphoma patient lymphocytes (before treatment) can serve as prognostic factors for the effectiveness of radio and chemical therapy.

[DNA damage in thymocytes of mice under combined acute whole body exposure to cadmium ions and gamma-radiation].

The effect of the combined acute whole body exposure to cadmium chloride (0.5 mg Cd2+ per kg body weight of animals) and gamma-radiation (1 Gy) on the DNA damage induction in thymocytes and thymic cellularity of mice was studied. It has been shown that CdCl2 solution injection 0.5 h before irradiation reduces the quantity of single-strand DNA breaks and alkali-labile sites in thymocytes 48 h after injection compared to gamma-radiation action only. The observed effect is accompanied by a sharp decrease of the thymic cellularity compared with the separate effects of both cadmium ions and irradiation, which masks the overall genotoxic effect of combined exposure and gives an illusion of cadmiumL ions radioprotective action. Cadmium chloride injection 24 h before irradiation leads to a significant additive increase in the single-strand DNA breaks and alkali-labile sites number as compared to the separate effects of cadmium ions and irradiation alone. At the same time the decrease in the percentage of DNA tightly bound to proteins (DNA-protein cross-links) was noted in comparison with the action of gamma-radiation only. Statistically significant changes in thymic cellularity compared with separate effects of cadmium ions and irradiation were not found. Thus, our research has shown that under a combined action of cadmium ions and gamma-radiation on thymocytes in mice at the applied doses and exposure schemes the additive effects, rather than antagonism or radioprotective effects are observed.

[Influence of ionizing radiation, application of iron ions and their chelate complexes on the oxidative status of blood serum of rats].

Influence of ionizing radiation, ions of iron and their chelate complexes on the oxidative status of blood serum of rats has been investigated. Animals were irradiated by gamma-rays 60Co at a dose of 4 Gy. Ions of iron and iron chelates with nitrilotriacetic acid and citric acid were introduced into animals intra-abdominally at a doze of 10 mg of iron on 1 kg of body weight. The oxidative status of blood serum was determined according to the estimated content of oxidizing peroxide equivalents which oxidize ferrous iron in ferric iron with the subsequent estimation of ferric iron by means of xylenol orange. We also estimated the total content of iron in blood serum using ferrozine as an indicator. The oxidative status was defined 24 and 96 hours after irradiation and 2 hours after introduction of iron ions and their chelates. The research conducted has shown that the concentration of oxidizing peroxide equivalents in serum and the total iron concentration increase 1.47 times and 1.63 times correspondingly 24 hours after irradiation. The increase in the content of oxidizing peroxide equivalents and iron owing to Fenton's reaction can lead to the appearance of OH* radical and raise the level of damage of nuclear and membrane structures in irradiated cells. 2 hours after introduction of iron ions and their chelates, the content of oxidizing peroxide equivalents increased in the blood serum of irradiated and non-irradiated rats, and the maximum effect was observed when introducing ferrous iron and its chelate with citric acid.

[Molecular and cellular consequences of the Chernobyl accident].

In this paper the results of the Chernobyl accident investigation 5-10 and 24 years after are summarized. The genomic instability, adaptive response formation, genome damage and oxidative status have been investigated. The studies were performed on cells in culture, mice, children and adults living in contaminated areas and liquidators. On cells in culture after exposition in the accident zone and culturing thereafter in laboratory conditions the cell proliferative activity decrease; the late cell death, the frequency of cells with micronuclei and giant cells increasing have been observed. In the progeny of exposed cells the enhancement of radiosensitivity has been noticed. So we can suppose that in cultured cells exposition in the zone of the accident the genomic instability is induced which results in many disturbances. At the organism level in mice exposed in the Chernobyl zone the radiosensitivity increase and the decrease of endotheliocytes density in brain tissue has been observed. On the stimulated by PHA blood lymphocytes of children the increase of the frequency of cells with micronuclei more than 2 time have been noticed. In all groups investigated, the decrease of individuals with significant adaptive response was observed. In children and adults inhabitants the increase of radiosensitivity after low dose of irradiation has been noticed. 24-year after the accident it was discovered that in liquidators lymphocytes the frequency of cells with micronuclei, with chromosome type aberrations, with DNA double strand breaks have been increased; the reactive oxygen species (ROS) were decreased in comparison with the control population. We can suppose that genomic instability induced in residents of contaminated regions and liquidators long after the accident results in the genetic apparatus damage, radiosensitivity enhancement, hypoxia that represent risk factors and increase the probability of tumour and non-tumour diseases. The development of these pathological processes may happen in much more remote periods.

[Distribution of individuals by spontaneous frequencies of lymphocytes with micronuclei. Particularity and consequences].

By micronucleus (MN) assay with cytokinetic cytochalasin B block, the mean frequency of blood lymphocytes with MN has been determined in 76 Moscow inhabitants, 35 people from Obninsk and 122 from Chelyabinsk region. In contrast to the distribution of individuals on spontaneous frequency of cells with aberrations, which was shown to be binomial (Kusnetzov et al., 1980), the distribution of individuals on the spontaneous frequency of cells with MN in all three massif can be acknowledged as log-normal (chi2 test). Distribution of individuals in the joined massifs (Moscow and Obninsk inhabitants) and in the unique massif of all inspected with great reliability must be acknowledged as log-normal (0.70 and 0.86 correspondingly), but it cannot be regarded as Poisson, binomial or normal. Taking into account that log-normal distribution of children by spontaneous frequency of lymphocytes with MN has been observed by the inspection of 473 children from different kindergartens in Moscow we can make the conclusion that log-normal is regularity inherent in this type of damage of lymphocytes genome. On the contrary the distribution of individuals on induced by irradiation in vitro lymphocytes with MN frequency in most cases must be acknowledged as normal. This distribution character points out that damage appearance in the individual (genomic instability) in a single lymphocytes increases the probability of the damage appearance in another lymphocytes. We can propose that damaged stem cells lymphocyte progenitor's exchange by information with undamaged cells--the type of the bystander effect process. It can also be supposed that transmission of damage to daughter cells occurs in the time of stem cells division.

[The polymorphism of catechol-O-methyltransferase (COMT) and hemochromatosis (HFE) genes in the radiocontaminated regions residents with different chromosome aberration frequency].

The association between polymorphisms in genes COMT, HFE that takes part in oxidative stress regulation, and chromosome aberration frequency in lymphocytes was assessed in 278 female residents of radiation polluted regions of Central Russia: Bryansk (322 kBk/m2) and Tula Districts (137Cs - 171 kBk/m2). The C187G, G845A genotyping of HFE and G1947A (H/L) of COMT was done by means of polymerase chain reaction-restriction fragment length polymorphism. Studied population was divided into 3 subgroups by level of chromosome aberrations per cell (0-2, 3-4, >5). There was shown statistically significant difference in distribution of COMTand HFE genotypes between the groups. The high frequency of chromosome aberrations (> or = 5%) was associated with homozygotes of the high activity COMT G/G and HFE CC. Heterozygotes for G1947A COMT and C187G HFE reveal negative association with the high frequency of chromosome aberrations and correspond to "resistance factors".

[Antioxidant and prooxidant properties of the ascorbic acid, dihydroquercetine and mexidol in the radical reactions induced by the ionizing radiation and chemical reagents].

Antioxidant and prooxidant properties of dihydroquercetine, mexidol and an ascorbic acid in reactions with participation of radicals OH* and O2(-)*, induced by gamma-irradiation, iron-catalyzed decomposition of hydrogen peroxide and oxidation of reduced NADH by phenazine metosulfate are investigafed. The efficiency of scavenging of radicals OH* estimated by the results of the analysis of deoxyribose degradation, and the efficiency of scavenging of superoxide anion-radicals O2(-)* is estimated by the results of the analysis of occurrence the reduced nitrotetrazolium blue. The concentrations of analyzed compounds, scavenging on 50% (C50%) formation of radicals OH* and O2(-)* are certain. It is shown, that an ascorbic acid, dihydroquercetine and mexidol decrease the generating of superoxide anion-radicals O2(-)* in the gamma-irradiated solutions of sodium format and at oxidation of reduced NADH by phenazine metosulfate scavanged of superoxide anion-radicals O2(-)*. In the gamma-irradiated saline solutions an ascorbic acid, dihydroquercetine and mexidol protected deoxyribose from oxidizing action of hydroxyl radicals OH*. However at presence Fe(3+), EDTA and hydrogen peroxide addition of an ascorbic acid (0.1 mmol/l) increased generating of hydroxyl radicals OH* and in 2.8 times raised the maintenance of products of deoxyribose oxidation, reacting with thiobarbituric acid. Prooxidant action of an ascorbic acid is observed as well in absence of hydrogen peroxide. Obtained data testify that in various modelling systems reagents, in particular ions of iron, and the formed active intermediate products render significant influence on scavenging efficiency of investigated compounds.

[The connection between molecular-cellular parameters and immune status of liquidators after Chernobyl accident].

The genome damage (the frequencies of cells with micronuclei (MN), chromosome aberrations, the level of DNA double-strand breaks (DSB DNA), the concentration of reactive oxygen species (ROS) and 28 immunological parameters have been studied on the blood lymphocytes of Chernobyl accident liquidators. The purpose of this article was the investigation of cytogenetic, molecular changes of blood lymphocytes of irradiated individuals 24 years after accident, examination it there are correlation between genome damage and immunological parameters. It was shown that in lymphocytes of liquidators the frequencies of cells with MN and with all type of chromosome aberrations didn't differ from the lymphocytes of nonirradiated individuals, but the frequency of chromosome aberration type was increased, the level of DSB DNA was increased too. The concentration of ROS is decreased. The percent of cytotoxic CD8(+)-T-lymphocytes, natural killer cells (CD16(+)-lymphocytes), CD3+ CD16+ CD56+ (NK-T-cells), that posses antivirus and antitumor activity--HLA-DR+, regulatory T-lymphocytes (CD4+ CD25+high) in liquidators significantly increases. The level of serum immunoglobulin (Ig A) significantly increases too. The index of immune regulation, meaning of phagocyte neutrophil (FAN) and macrophage activity decreases. In liquidators there are significant correlation between the frequencies of cells with MN and the content of regulatory T-lymphocytes (p < 0.05), between the concentrations of ROS and activated T-lymphocytes. More connection is on the tendency level (p < 0.10): the frequency of chromosome aberrations, the DSB DNA level with natural killer cells and regulatory T-lymphocytes; the frequency of cells with MN and DSB DNA and FAM. We can suppose that genomic instability induced by the liquidators of Chernobyl accident consequences 24 years ago manifests now as increased genome damage and oxidative status decrease that can result in imbalance of cells and humoral immune status, disturbancies of health.

[Molecular-cellular characteristic of blood lymphocytes in Hodgkin lymphoma].

The molecular-cellular parameters complex has been studied on the blood lymphocytes of malignant Hodgkin's lymphoma (HL) patients: the frequency of cells with micronuclei (MN) and chromosome aberrations; the level of DNA single and double strand breaks - OR and DR DNA (DNA comet assay), oxidative status--the content of reactive oxygen species (ROS) by using nonfluorescent dye that is oxygenated in the cells to fluorescent reagent and detection of fluorescence intensity after there. It was shown that the patients with LH had the increased level of DR and OR DNA, the increased frequency of cells with chromosome aberrations and the number of aberrations per cell was increased too. The concentration of ROS is increased too for the most individuals with intoxication. In the process of the chemical and radiation therapy the increase of OR DNA level, the frequency of the cell with MN has been registered. The ROS concentration correlates with the level of DNA-strand breaks. So the blood lymphocytes of HL patients before treatment differ from the lymphocytes of healthy donors. The damage of genome and the change of oxidative status have been observed that can be additive markers for the HL diagnosis, their sensitivity to the treatment and the characteristic of lymphocytes changes by this disease.

[Genomic damage, adaptive response induction in blood lymphocytes at the prostate cancer patients. Connection with the tumour radiotherapy efficiency].

On the blood lymphocytes of prostate cancer (PCa) patients before and during radiotherapy: DNA damage by DNA commet assay (DNA double strand breaks - DSB); the frequency of cells with micronuclei (MN) with cytokinetic cytochalasin block; the adaptive response induction by the additional irradiation of PHA stimulated lymphocytes in the doses of 0.05 and 1.0 Gy 24 h and 48 h after stimulation were studied. Changes of these parameters with the decreasing of prostate specific antigen (PSA) have been compared. PSA decreasing is an adequate of the radiotherapy efficiency. It was shown that in oncological patients the DSB level and the frequency of cells with MN have been increased. During radiotherapy (in 3 months) the DNA DSB level and the frequency of cells with MN is enhancing. The degree and direction change of these parameters coincide. It was discovered the significant correlations between the enhancing of DNA DSB level and the cell frequency with MN during therapy and degree of the PSA level decreasing. Then it was shown that when the cell frequency with MN before treatment is higher the radiotherapy efficiency is worse. These results can have great significance for the evaluation of the prognosis of the treatment efficiency. The investigation of lymphocytes for the adaptive response ability has shown that in the patients with the pronounced adaptive response before radiotherapy the decrease of PSA level during treatment was not significant (in mean 3.5-3.6 ng/ml); when the adaptive response is absent or the phenomenon of enhanced radiosensitivity was observed the PSA level (in the most cases) was decreased very essential (in mean 0.07 ng/ml). We can suppose that prognosis of the treatment efficiency of the prostate cancer patients with the pronounced adaptive response in blood lymphocytes will be worse.

[Adaptive response in the different mitotic cycles after irradiation].

The frequency of cells with chromosome aberrations and the number of aberrations per cell by metaphase analysis have been studied in the nonirradiated progeny of irradiated human blood lymphocytes. The DNA fragmentation (DNA double strand breaks) have simultaneously been investigated by the DNA comet assay. PHA stimulated lymphocytes have been irradiated in the adaptive dose 0.05 Gy 24 h and in the challenge dose 1 Gy 48 h after stimulation to study the adaptive response (AR). 5-bromodeoxyuridine have been added for the identification the first--the fourth mitoses. It has been discovered that the frequency of chromosome aberrations is increased is all mitotic cycles after challenge irradiation, the level of double strand breaks is increased too. The adaptive response in induced by the adaptive and challenge irradiation in the first and the second mitotic cycles (fixation 48 and 72 h after stimulation) for the most parts of individuals, but it is absent in the third and the fourth mitosis. Only chromatid aberrations are observed in the first mitosis, but chromosome aberrations--in the following mitosis. Investigation by the DNA comet assay have showed the adaptive response is noticed 48-72 h after stimulation but it is insignificant 96 h. The conclusion is that the genomic instability is observed in nonirradiated progeny irradiated lymphocytes; the adaptive response is manifested up to third mitosis and is explained by the decreasing of the number of the chromatid and chromosome aberrations and DNA fragmentation. We can suppose that double strand DNA breaks can be signaling damage for the adaptive response induction.

[New approaches to diagnostics and identification of possible damages in normal humans under the conditions of microgravity and exposure to low doses of radiation].

The issues of radiation risk evaluation were addressed in the investigation of cytogenetic and molecular-biological changes in lymphocytes of cosmonauts and pilots of high-altitude airplanes. The goal was to determine individual sensitivity to the flight conditions and an additional factor (lymphocyte exposure to 1 Gy in situ), and adaptability as an index of induction of cell and organism resistance to extreme conditions.

[The analysis of chromosome lesions in lymphocytes of Hodgkin's lymphoma patients after chemotherapy and radiation therapy].

The analysis of chromosome lesions in peripheral blood lymphocytes of Hodgkin's lymphoma (HL) patients after chemotherapy and chemotherapy with the subsequent course of radiation therapy is carried out. Is shown, that the mean aberration frequency was significantly higher in HL patients after chemotherapy (7.20 +/- 0.58 per 100 metaphases) than in non-treated HL patients (4.80 +/- 0.54, p < 0.01). The subsequent carrying out of radiation therapy enlarges number of chromosome aberrations on 100 metaphases up to 46.7 +/- 10.7 (p < 0.05), of which chromosome-type aberrations (43.2 +/- 10.3 on 100 metaphases) averaged 92.5%. In lymphocytes of 37 out of 43 HL antitumoral treatment patients, we found, in addition to ordinary aberrant cells, a large number of multiaberrant (MA-cells) cells, i.e. metaphases carrying multiple (at least four) chromosome-type exchange aberrations. In 30 non-treated HL patients only one MA-cell was found. From 171 MA-cells which were in 43 HL patients after antitumoral treatment, 114 MA-cells were found at inspection of 9766 diploid metaphases, and the remaining 57 MA-cells were found at inspection of 196 polyploid metaphases. The carrying out after chemotherapy of radiation therapy enlarges in lymphocytes frequency of appearance of MA-cells. The analysis of MA-cells in diploid and polyploid metaphases shown, that the MA-cells could be formed both in vivo, and in vitro in absence of influence of clastogenic factors, and could survive at least two rounds of in vitro replication.

[The mechanisms of adaptive response. Estimation of capacity of human blood lymphocytes to radiation adaptive response using different criteria].

Blood lymphocytes of 15 healthy donors have been investigated for the ability to decrease their radiosensitivity after treatment with low dose irradiation named radioinduced adaptive response (AR). The unstable chromosome aberrations were used to evaluate the radiosensitivity change after irradiation of cells with low adaptive dose (5 cGy) and subsequent high challenge dose (1.0 Gy) in comparison with the effect of challenge irradiation only. Three indexes were used: the frequency of cells with aberrations in all analyzed cells (A), the number of chromosome aberrations per cell (B) and the number of chromosome aberrations per one aberrant cell (C). It has been discovered that all donors examined can be divided into four groups: 1--individuals which cells did not show AR by all indexes used; 2--individuals which cells showed AR by indexes A and B, but not C; 3--AR was demonstrated by indexes B and C; 4--AR was confirmed by all three indexes. Generally accepted repair model for AR formation explains only the case of donor groups 3 and 4, but can not explain the mechanism leading to the case of group 2. For understanding this mechanism, the distribution of metaphases by the number of chromosome aberrations per cell was analyzes for each donor. It was shown that the part of cells without aberrations in group 2 donors increased significantly after treatment with the adaptive and challenge irradiation in comparison with that after irradiation with challenge dose only. The conclusion is that in this case AR is formed as a result of change in the frequency 0 cell class--population shift. The analogous shift was observed in the distributions of metaphases for all donors of the group 4, but was absent in the group 3 donors. The data obtained suggest that AR of blood lymphocytes might be a result of several processes: activation of submutational genome damage repair; population shifts manifested by the change in the part of undamaged cells; and, possibly, activation of apoptotic cell death. The complex nature of AR affects each of radiosensitivity evaluation criteria to a different extent.