The dopamine system in rat brain areas in the early period following irradiation with superhigh doses]

In studying the main indices that characterize the neurochemical system of biosynthesis and degradation of a dopamine neuromediator, tyrosine hydroxylase-dopamine-monoamine oxidase, in different brain regions 5-6 min, 1 and 18 h after whole-body irradiation with high energy electrons (100 Gy) the authors have revealed a 25-40% inhibition of tyrosine hydroxylase and monoamine oxidase activity, and a 40% increase in the dopamine content of basal ganglia of the brain that control behavioural reactions of the organism. The neurochemical disturbances revealed are involved in the mechanisms of early transient incapacity after irradiation with superhigh doses.     

Mechanisms of radiation impairment of DNA biosynthesis. Separation, partial purification, characteristics of and changes in DNA polymerase alpha and beta activities of rat bone marrow at early stages after gamma irradiation and comparison with the status of repair and replication biosynthesis of DNA

Activity of alpha and beta DNA-polymerases in nuclei and cytosol and also replicative and repair biosynthesis of DNA in the bone marrow were determined during the first hours following whole-body gamma-irradiation of rats with a dose of 6 Gy. There was a pronounced and reliable correlation between postirradiation changes in activities of both DNA-polymerases in nuclei and also semiconservative and repair biosynthesis of DNA in bone marrow cells. The results were obtained by the method of separation and partial purification of alpha and beta polymerase the most important characteristics of which are presented.     

Mechanisms of the radiation-induced disorder of DNA synthesis. The correlation of biosynthesis, DNA repair and DNA polymerase alpha and beta activity in the bone marrow of rats exposed to gamma quanta and fast neutrons

A study was made of DNA biosynthesis and repair and alpha- and beta-DNA-polymerase activity in rat bone marrow during the first 24 hours following whole-body irradiation with gamma-quanta and fast neutrons (up to 6 Gy). There was a correlation between the post-irradiation inhibition of DNA biosynthesis, a decrease in DNA-polymerase activity and template reparability. The data obtained permitted to consider the radiation-induced disturbance of DNA biosynthesis and the change in beta-polymerase activity as one of the possible mechanisms of formation of high relative biological effectiveness of neutrons.     

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. The analysis of dependencies between these parameters in the norm, immediately after irradiation and in later cell descendants showed the direct correlation between the ROS content and the DNA nativity in the norm; 185 days after irradiation the correlation disappeared. It was suggested that the correlation occurred in the norm indicates participation of the ROS (as a sensory link) in a system of reactions (under the control of the corresponding genetic program), that ensure the DNA structure and, ultimately, the genome stability. The loss of such connection after acute exposure to ionizing radiation indicates actuation of another module of reactions sustaining stability of cellular genome in new conditions, without regulatory participation of ROS, that can promote or demonstrate the development of radiation-induced genome instability.     

Preparation of soybean seed samples for FT-IR microspectroscopy

Typical preparation of seed samples for infrared (IR) microspectroscopy involves imbibition of the seed for varying time periods followed by cryosectioning. Imbibition, however, may initiate germination even at 4° C with associated changes in the chemistry of the sample. We have found that it is possible to section seeds that are sufficiently hard, such as soybeans, on a standard laboratory microtome without imbibition. The use of dry sectioning of unimbibed seeds is reported here, as well as a comparison of different mounting media and modes of analysis. Glycerol, Tissue-Tek, and ethanol were used as mounting media, and the quality of the resulting spectra was assessed. Ethanol was the preferred mountant, because it dried quickly with no residue and thus did not interfere with the spectrum of interest. Analysis in transmission mode using barium fluoride windows to hold the samples was compared with transmission-reflection analysis with sections mounted on special infrared-reflecting slides. The two modes of analysis performed well in different regions of the spectrum. The mode of analysis (transmission vs. transmission-reflection) should be based on the components of greatest interest in the sample.     

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-biochemical data were obtained with patients' leukocytes and with mononuclear cells on their oxidative status by a) the level of an anion-radical O2*- in the 3-(4,5-dimethyl-2-thiazol-2-yl)-2,5-diphenyl-2-tetrazolium bromide (MTT) test and b) the sum of reactive oxygen species in the 2,7-dichlorodihydrofluorescein diacetate (DCFDA) test together with a test for DNA strand unwinding in alkaline conditions by measurements of fluorescence intensity of ethidium bromide. Each parameter was measured in freshly sampled cells and during a 5-hour incubation as absolute means on 5 measurements and in % change from the initial values. Cytogenetic data were obtained from the standard metaphase preparations scored for routine unstable chromosomal aberrations (us-CA)--dicentrics; and stable aberrations (sCA)--translocations. The latter ones were assayed by the FISH method using whole chromosome 2, 4 and 12 fluorescent probes and scaled up to genome equivalence. For all patients reduced oxidative status of about 25-30% was obtained by the MTT-test (p < 0.005), and the DCFDA-test (p < 0.027). The yield of usCA depended on the time after irradiation with higher yields associated with the shorter postirradiation times and reducing almost to expected background frequencies. The yield of sCA was high for all patients, correlating with the severity of ARS whilst the molecular-biochemical parameters showed no relationship with ARS. A correlation was observed between parameters of oxidative status and % of cells with usCA: by the MTT-test r = from 0.50 up to 0.61 (p = from 0.06 up to 0.003), but by the DCFDA-test the strength of correlation was smaller: r = from 0.38 up to 0.48. An inverse correlation was found between initial oxidative state of mononuclear cells and the frequency of CA in lymphocytes. Similarly a marked inverse correlation between degree of DNA unwinding by the ethidium bromide assay on leukocytes and sCA in lymphocytes was also noted. The feasibility of radiation-induced delayed genomic instability in vivo for humans long time after irradiation is discussed.     

Anti-tumor therapy with macroencapsulated endostatin producer cells

Background  

Theracyte is a polytetrafluoroethylene membrane macroencapsulation system designed to induce neovascularization at the tissue interface, protecting the cells from host's immune rejection, thereby circumventing the problem of limited half-life and variation in circulating levels. Endostatin is a potent inhibitor of angiogenesis and tumor growth. Continuous delivery of endostatin improves the efficacy and potency of the antitumoral therapy. The purpose of this study was to determine whether recombinant fibroblasts expressing endostatin encapsulated in Theracyte immunoisolation devices can be used for delivery of this therapeutic protein for treatment of mice bearing B16F10 melanoma and Ehrlich tumors.     

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. In males lower catalase activity was found in the norm, with considerable increase of the activity and the content of ROS after chronic irradiation with a low dose (200 mGy); at the same time a direct correlation between the ROS content and catalase activity occurred. In female, which have higher DNA repair potential, higher level of catalase activity was found in the norm, with reduction after irradiation and lower, than in male, level of O2*- content; no changes in the general ROS content, or direct correlation between the content of a superoxide anion-radical (O2*-) and the sum of ROS were observed. The detected differences between male and female the studied parameters in the norm and after irradiation indicate a connection of the studied characteristics and their changes with a sex, confirm the literature data about a significance of the factor of a genetic fundamentals of bioobject in formation of radiation-induced genome instability.     

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. The injection of the phenozane in concentrations causing its receptor interaction with cells, did not defend DNA of the bone marrow cells from the radiation injury after the exposure in a sublethal dose, however it exerted influence on long-term changes. Due to the phenosane of the bone marrow cells of the irradiated mice of CBA line exhibited the larger activity in a DNA repair from damages and maintenance of vitality. The bone marrow cells of male mice of repair defective 101/H line, which phenozan was entered before the irradiation, remained unfit to the remuval of DNA damages by the repair, that probably resulted the activations of the program of the maintenance of genome constancy by the apoptosis in the cells--carriers of the structural defects and the cause of animal lethality.     

Hill’s “Biological Plausibility” Criterion: Integration of Data from Various Disciplines for Epidemiology and Radiation Epidemiology

Biology Bulletin - In this review, various aspects of the causality criterion “Biological Plausibility,” which is sometimes replaced by the criterion “Coherence”...