Adrenergic mechanisms regulating the motor reactions of rats in the early postnatal period

In 12-day-old rats, L-DOPA, a precursor of catecholamine synthesis, provokes an increase in the rate of the motor reactions (MR) of the shudder type. Reserpine which promotes catecholamine release from the tissues, leads to the diminution of the rate of the MR of the shudder type in rats of the same age. Aminazine, an alpha-adrenoblocker and antagonist of dopamine receptors, decreases the rate of the MR of the shudder type. Administration of aminazine in a dose of 10 mg/kg at different age periods produces inconclusive changes in the diminution of the rate of the MR of the shudder type. During sudden changes in the growth, the rate of the above-described modulations substantially decreases. The high rate of the MR of the shudder type seen in rats in the early postnatal period is a consequence of the marked activity of the catecholaminergic (dopaminergic) systems during that period. Reduction in the effect of the decreased MR rate produced by the same dose of aminazine during the critical periods of the growth also attests to the high activity of the catecholaminergic (dopaminergic) system in rats at that period.     

Effect of radiation on the xanthine oxidoreductase system in the liver of mice.

The xanthine oxidoreductase system is one of the major sources of free radicals in many pathophysiological conditions. Since ionizing radiations cause cell damage and death, the xanthine oxidoreductase system may contribute to the detrimental effects in irradiated systems. Therefore, modulation of the xanthine oxidoreductase system by radiation has been examined in the present study. Female Swiss albino mice (7-8 weeks old) were irradiated with gamma rays (1-9 Gy) at a dose rate of 0.023 Gy s(-1) and the specific activities of xanthine oxidase (XO) and xanthine dehydrogenase (XDH) were determined in the liver of the animals. The mode and magnitude of change in the specific activities of XO and XDH were found to depend on radiation dose. At doses above 3 Gy, the specific activity of XO increased rapidly and continued to increase with increasing dose. However, the specific activity of XDH was decreased. These findings are suggestive of an inverse relationship between the activity of XO and XDH. The ratio of the activity of XDH to that of XO decreased with radiation dose. However, the total activity (XDH + XO) remained constant at all doses. These results indicate that XDH may be converted into XO. An intermediate form, D/O, appears to be transient in the process of conversion. The enhanced specific activity of XO may cause oxidative stress that contributes to the radiation damage and its persistence in the postirradiation period. Radiation-induced peroxidative damage determined in terms of the formation of TBARS and the change in the specific activity of lactate dehydrogenase support this possibility.     

The mutagenic activity of ethylnitrosourea at low doses in spermatogonia of the mouse as assessed by the specific-locus test

Ethylnitrosourea is the most efficient chemical mutagen in spermatogonial stem cells of the mouse and its mutagenic activity has been intensively studied. The pertinent specific-locus mutation test results for a discussion of low dose–effect studies have been summarized and indicate: (1) A threshold dose response best characterizes the relationship between dose and mutation rate. (2) The reduced effectiveness of ethylnitrosourea in the low dose range is likely due to a saturable repair process. (3) The recovery of the saturable repair process as assessed in fractionated dose experiments is long (ca. 168 h). The dynamics of stem cell spermatogonia suggests a long time interval before the cell population passes through at least one cell division and this may be relevant to an interpretation of the fractionation effects. (4) There is a slight but important discrepancy between the predicted and observed mutagenic activity of ethylnitrosourea in the low dose range. This is interpreted to be due to the differences between a mathematical abstraction and the biological realities of the system being studied.     

Determination of the level of internal irradiation of people farming in territories polluted by radionuclides

The derived specific activities of radionuclides in the soil are calculated for different pathways of the internal irradiation at a level of an effective dose of 1 mSv per year. The ratio of the actual specific activity to its derived specific activity gives a value of the contribution to annual effective dose for the considered irradiation pathway. The results of the work make it possible to find the upper estimation of the effective dose by simple measurements of the exposure dose rate in a soil sample of a given geometry and by rate of pulses counting by beta- and alpha-radiometry of thick soil samples.     

Reversible depression of the reticuloendothelial system by liposomes

The effect of various doses of different types (reverse phase evaporation vesicles and small unilamellar vesicles) of intravenously injected liposomes on reticuloendothelial activity, as measured by the blood clearance rate of intravenously injected carbon, was investigated. Also the effect of pretreatment with reverse phase evaporation vesicles on blood clearance and tissue distribution of a second dose of similar vesicles was determined. For all concentrations used reverse phase evaporation vesicles caused reduction in reticuloendothelial activity at least up to 4 h after injection. 24 h after administration the rate of carbon clearance returned to the control level. On the contrary small unilamellar vesicles did not block reticuloendothelial activity. Pretreatment with reverse phase evaporation vesicles (250 μmol/kg) caused an increased blood level and a decreased hepatic uptake of a second dose of the vesicles, injected 1 h after the first dose. This seems to be due to a depression of reticuloendothelial activity and not to a depletion of opsonins. Pretreatment with small unilamellar vesicles (250 μmol/kg) had no significant influence on the tissue distribution of a second dose of vesicles. Our results clearly indicate that reverse phase evaporation vesicles cause a reversible depression of reticuloendothelial activity and this depression seems to be induced by a saturation of reticuloendothelial cells with liposomes.     

Analysis of Plasma Protein Concentrations and Enzyme Activities in Cattle within the Ex-Evacuation Zone of the Fukushima Daiichi Nuclear Plant Accident

The effect of the Fukushima Daiichi Nuclear Power Plant (FNPP) accident on humans and the environment is a global concern. We performed biochemical analyses of plasma from 49 Japanese Black cattle that were euthanized in the ex-evacuation zone set within a 20-km radius of FNPP. Among radionuclides attributable to the FNPP accident, germanium gamma-ray spectrometry detected photopeaks only from ¹³⁴Cs and ¹³⁷Cs (radiocesium) commonly in the organs and in soil examined. Radioactivity concentration of radiocesium was the highest in skeletal muscles. Assuming that the animal body was composed of only skeletal muscles, the median of internal dose rate from radiocesium was 12.5 μGy/day (ranging from 1.6 to 33.9 μGy/day). The median of external dose rate calculating from the place the cattle were caught was 18.8 μGy/day (6.0–133.4 μGy/day). The median of internal and external (total) dose rate of the individual cattle was 26.9 μGy/day (9.1–155.1 μGy/day). Plasma levels of malondialdehyde and superoxide dismutase activity were positively and glutathione peroxidase activity was negatively correlated with internal dose rate. Plasma alanine transaminase activity and percent activity of lactate dehydrogenase (LDH)-2, LDH-3 and LDH-4 were positively and LDH-1 was negatively correlated with both internal and total dose rate. These suggest that chronic exposure to low-dose rate of ionizing radiation induces slight stress resulting in modified plasma protein and enzyme levels.     

The contribution of the stomach to ethanol oxidation in the rat

To estimate the amount of ethanol that can be oxidized in the stomach, steady-state conditions were created in a group of fed rats by giving a loading dose of ethanol (2 g/kg body wt I.V.) followed by continuous infusion either intravenously or intragastrically. The rate of ethanol oxidation was calculated from the rate of infusion required to maintain steady blood levels of approximately 30 mM for at least 3 hours. Gastrointestinal ethanol concentrations and total contents also remained steady. The rate of ethanol oxidation was 19.3% faster during intragastric than during intravenous infusion (p less than 0.01). When measured at the prevailing luminal ethanol concentration (145 mM) and expressed per body weight, the gastric ADH activity represented 14% of the hepatic activity at 30 mM ethanol, suggesting that gastric ADH activity could account for most of the increased rate of oxidation when ethanol is given intragastrically. Thus, gastric ethanol oxidation by a high Km ADH in the rat represents a significant fraction of the total rate of ethanol oxidation and it is therefore one of the factors which determines the bioavailability of orally administered ethanol.     

Ionizing radiation alters neuronal excitability in hippocampal slices of the guinea pig

To investigate the effects of ionizing radiation on an isolated neuronal network without complicating systemic factors, slices of hippocampus from the guinea pig were isolated and studied in vitro. Slices were irradiated with a 60Co source and compared to paired, sham-irradiated controls. Electrophysiological activity in the CA 1 population of pyramidal cells was evoked by stimulation of the stratum radiatum. Analysis of the somatic and dendritic responses suggested sites of radiation damage. Orthodromically evoked activity was significantly decreased in slices receiving greater than 75 Gy gamma radiation. The effects were dose and dose-rate dependent. At 20 Gy/min, doses of 50 Gy and greater produced synaptic impairment while doses of 75 Gy and greater also produced postsynaptic damage (i.e., the ability of the synaptic response to generate an action potential). A lower dose rate, 5 Gy/min, reduced the sensitivity of synaptic damage to radiation exposure; synaptic impairment required a dose of 100 Gy or greater at the lower dose rate. In contrast, postsynaptic damage was not sensitive to dose rate. This study demonstrates that ionizing radiation can directly affect the integrated functional activity of neurons.     

Changes in functional activity of the synthetic apparatus of rat thymocytes under acute and chronic gamma-irradiation

The changes in functional activity of rat thymocyte synthetic apparatus (synthetic activity) under acute (7.5 Gy) and continuous (dose rates 14.4 and 0.43 cGy/day) gamma-irradiation were studied by the fluorescent microspectral analysis. It has been shown that after the acute irradiation the changes in synthetic activity occurred in three main stages. The stages reflect the depression and activation of synthetic processes that is due to interphase and reproductive cell death and urgent recovery of thymus cellularity and secondary repopulating. Under continuous irradiation with a dose rate 14.4 cGy/day in long-term period both the decrease of thymocyte synthetic activity (in most animals) and activation (in the animals with pronounced symptoms of radiation damage) were observed. This reflects the depression processes in immune system and augmentation of immunoreactivity due to mass antigen influence of transformed cells and infectious agents on thymocytes. Under low dose ionizing irradiation (dose rate 0.43 cGy/day) the undulating changes in synthetic processes in thymus cells were observed. This depends on the recurrence of depression and recovery processes in the blood-forming tissue.     

Effect of subtherapeutic doses of docetaxel (taxotere) on the efficacy of radiotherapy and pro-oxidant-antioxidant balance in rats with Guerin's carcinoma

In the experiments at Wistar male rats the effect of subtherapeutic doses of docetaxel (5 and 10 mg/kg) on the radiotherapy efficacy (20 Gy of single-dose X-rays) namely growth rate of Guerin's tumor and prooxidant-antioxidant balance in liver and blood of animals bearing tumors was investigated. It has been demonstrated that docetaxel at dose 5 mg/kg given 18 hours before irradiation resulted in significant tumor growth delay (2.3-2.7-fold) in comparison with group of rats that received only irradiation. After application of higher dose of docetaxel there was no statistically significant change of tumor size along the whole experiment (14 and 21 days after tumor implantation). Content of lipid peroxidation products was revealed to be considerably increased after chemotherapy and concurrent irradiation when docetaxel was used in a dose of 10 mg/kg. At the same time glutatione peroxidase activity and antioxidative activity of blood plasma were reduced. In the rat liver chemoradiotherapy led to decrease of glutathion peroxidase and glutathione-S-transferase activity to greater degree at docetaxel dose of 10 mg/kg. The obtained results allow to conclude that higher dose of docetaxel and concurrent irradiation resulted in the most effective Guerin's carcinoma growth delay and considerable deviation of antioxidant-prooxidant balance of tissues in the direction of the last.     

Dependence of the damage and recovery of nucleic acid metabolism on the dose rate in tritium oxide exposure

Disturbance and normalization of nucleic acid metabolism in rat thymus was studied after the effect of tritium oxide delivered in similar cumulative doses but at different dose rates. Both the disturbance and normalization were shown to be a function of dose rate, the slightest damage and the complete recovery being registered at the lowest dose rate (the amount of tritium oxide administered being 0.37 MBq/g/day). The rate of restoration was also a function of dose rate; with tritium oxide dose of 1.85 MBq/g/day (the dose rate at the stage of the equilibrium tritium content in the aqueous phase being 0.38 Gy/day) it was 9 times as high as that after a dose of 0.37 MBq/g/day (0.11 Gy/day dose rate).     

Status of hemapoiesis in residents of the Techa riverside villages in the period of maximum radiation exposure. Report 1. Evaluation of the cellular composition of peripheral blood and the role of comorbidities in the oppression of hemapoiesis

Residents of the Techa riverside villages chronically exposed to ionizing radiation (the average dose rate in 1951-1956 was 0.047 Gy/year, the maximum reached 2.44 Gy/year) developed marked changes in the cellular composition of peripheral blood. The maximum reduction of peripheral blood counts occurred in the years 1951-1953, after which the beginning of the restoration of cellularity to the control level was observed. The dose rate at this point (1956) was about 0.02 Gy/year. The factors of radiation and non-radiation nature (gender, the age at the onset of exposure, health related disorders) in different combinations affect the number of peripheral blood cells. The influence of dose rate of a chronic radiation exposure on a platelet count takes precedence over other factors. The factors of gender and dose rate determine the number of erythrocytes in exposed persons. The changes accompanying the health status and dose rate significantly affect the number of neutrophils. The influence of comorbidity, age and dose rate on the number of monocytes was noted. A lymphocyte count was mainly determined by the age at the onset of exposure and concomitant diseases. A joint influence of chronic radiation exposure and concomitant diseases increases a mutual action on erythro- and thrombocytopoiesis. The decrease of the dose rate was followed by a gradual predominance of the somatic disease influence on leukocyte (neutrophils, lymphocytes and monocytes) counts.     

Bimodal effects of luteinizing hormone and role of androgens in modifying superovulatory responses of rats to infusion with purified porcine follicle-stimulating hormone

Prepubertal (28-30 days old) female rats were infused s.c. over a 60-h period with a purified porcine pituitary follicle-stimulating hormone (FSH) preparation having FSH specific activity 8.4 times that of NIH-FSH-S1 and luteinizing hormone (LH) specific activity less than 0.005 times that of NIH-LH-S1, based on radioreceptor assays. When the FSH infusion rate of this preparation was increased over the range of 0.5-2 units/day (mg NIH-FSH-S1 equivalent), an all-or-none response was observed, with the threshold dose for superovulation being between 1 and 2 units/day. Eleven of twelve rats receiving the 2 units/day dose ovulated a mean +/- SEM of 67 +/- 8 oocytes on the morning of the third day after the beginning of FSH infusion. Addition of human chorionic gonadotrophin (hCG), as a source of LH activity, to a subthreshold (1 U/day) FSH infusion rate resulted in 20% of rats ovulating at an hCG dosage of 50 mIU/day; increasing the hCG infusion to 200 mIU/day concomitant with the subthreshold FSH infusion rate increased ovulation rate to a mean of 69 +/- 8/rat, with 100% of rats ovulating. To determine the effect of varying both FSH infusion rates and LH:FSH ratios, FSH was infused at several rates, with hCG added to give varying hCG:FSH ratios for each FSH infusion rate. Administration of hCG alone was ineffective in causing ovulation except at the highest infusion rates. Adding hCG to FSH to reach a ratio of 0.2 IU hCG/U FSH significantly increased the superovulatory response to an intermediate, 1 U/day FSH dose, but not to the low, 0.5 U/day dose.(ABSTRACT TRUNCATED AT 250 WORDS)     

Kainic acid increases activity only of some cortical neurons in the rat

The influence of a subconvulsant dose of kainic acid (KA) on the activity of neurons was studied in the sensorimotor cortical area of urethane-anesthetized rats. A total of 41 neurons was recorded, 38 of these in layer V (probably pyramidal cells). The activity of 18 neurons was recorded before as well as more than 30 min after KA administration (6 mg/kg i.p.). Nine out of these 18 neurons increased their firing rate significantly even 20 min after KA injection, whereas the remaining neurons did not change their activity. Altogether, the increase in the firing rate was significant. KA was found to enhance markedly the firing rate of a part of cortical neurons at very early stages of its action.     

Shuttle radiation dose measurements in the International Space Station orbits.

The International Space Station (ISS) is now a reality with the start of a permanent human presence on board. Radiation presents a serious risk to the health and safety of the astronauts, and there is a clear requirement for estimating their exposures prior to and after flights. Predictions of the dose rate at times other than solar minimum or solar maximum have not been possible, because there has been no method to calculate the trapped-particle spectrum at intermediate times. Over the last few years, a tissue-equivalent proportional counter (TEPC) has been flown at a fixed mid-deck location on board the Space Shuttle in 51.65 degrees inclination flights. These flights have provided data that cover the expected changes in the dose rates due to changes in altitude and changes in solar activity from the solar minimum to the solar maximum of the current 23rd solar cycle. Based on these data, a simple function of the solar deceleration potential has been derived that can be used to predict the galactic cosmic radiation (GCR) dose rates to within +/-10%. For altitudes to be covered by the ISS, the dose rate due to the trapped particles is found to be a power-law function, rho(-2/3), of the atmospheric density, rho. This relationship can be used to predict trapped dose rates inside these spacecraft to +/-10% throughout the solar cycle. Thus, given the shielding distribution for a location inside the Space Shuttle or inside an ISS module, this approach can be used to predict the combined GCR + trapped dose rate to better than +/-15% for quiet solar conditions.     

Dynamics of the frequencies of sister chromatid exchange and chromosome aberrations in vivo

2.4 and 6 mg/kg thiophosphamide (T) was administered intravenously to New Zealand rabbits. A decrease in sister chromatid exchange (SCE) and chromosome aberration (CA) rate began immediately after the mutagenic action of T was over. The expected SCE rate was more than the investigated one. The difference between expected and investigated SCE rate increased with the dose of T. A calculation of SCE was based on the amount of the administered T, the rate of T removal and cell sensitivity to T. The death of cells with high number of SCE resulted in a fast decrease in SCE rate in the first 4 days. Reparative processes and cell proliferation in lymphocyte tissue resulted in a slow decrease in SCE rate after the 4th day. A number of nuclear cells in the blood was the smallest on the 4 th day, at the same time relative increase in CA rate was observed. The time of sampling and the dose of the substance tested should be taken into account for a more accurate estimation of mutagenic activity of some chemicals in in vivo cytogenetic tests.     

Dose-rate effect on the induction of HPRT mutants in human G0 lymphocytes exposed in vitro to gamma radiation

The influence of dose rate on expression time, cell survival and mutant frequency at the hypoxanthine-guanine phosphoribosyltransferase (HPRT) locus was evaluated in human G(0) peripheral blood lymphocytes exposed in vitro to gamma rays at low (0.0014 Gy/min) and high (0.85 Gy/min) dose rates. A cloning assay performed on different days of postirradiation incubation indicated an 8-day maximum expression period for the induction of HPRT mutants at both high and low dose rates. Cell survival increased markedly with decreasing dose rate, yielding D(0) values of 3.04 Gy and 1.3 Gy at low and high dose rates, respectively. The D(0) of 3.04 Gy obtained at low dose rate could be attributed to the repair of sublethal DNA damage taking place during prolonged exposure to low-LET radiation. Regression analysis of the mutant frequency yielded slopes of 12.35 x 10(-6) and 3.66 x 10(-6) mutants per gray at high and low dose rate, respectively. A dose and dose-rate effectiveness factor of 3.4 indicated a marked dose-rate effect on the induced HPRT mutant frequency. The results indicate that information obtained from in vitro measurements of dose-rate effects in human G(0) lymphocytes may be a useful parameter for risk estimation in radiation protection.     

Changes in superoxide production rate and in superoxide dismutase and glutathione peroxidase activities in subcellular organelles in mouse liver under exposure to low doses of low-intensity radiation

The functioning of the antioxidant system in mouse liver at increased stationary concentration of active oxygen species induced by whole-body chronic exposure of mice to gamma-irradiation (137Cs, 0.6 cGy/day, 9 days) was studied. Synchronous changes (growth with an extreme) in activities of superoxide dismutase (SOD) and glutathione peroxidase (GSH-Px) are found that may be considered as evidence in favor of maintenance of regulatory links in the antioxidant system of liver. The superoxide production rate in microsomes and nuclei also changed with an extreme with the rise in accumulated radiation dose. In microsomes the superoxide production rate reached a maximum at lower doses than the activity of Cu,Zn-SOD did. In nuclei the increase in superoxide production rate was not compensated by the rise in Cu,Zn-SOD activity within the studied dose range. The findings indicate some imbalance between production and consumption of superoxide radicals in microsomes and nuclei; in mitochondria these processes are balanced, leading to more resistance to low-dose irradiation.     

Effects of varying doses of methionine sulfoximine on liver glutamine synthetase activity and time courses of blood and urinary nitrogenous compounds in the chicken (Gallus domesticus)

1. The activity of liver glutamine synthetase was inhibited to 7-12% of the control activity by an intracardiac injection with methionine sulfoximine (MSM) at dosages of 20, 50, 75 and 100 mg/kg body wt. 2. Plasma glutamine concentrations in all the MSM treatments decreased sharply, then reached steady-state levels within 0.5-2.5 hr, which were almost proportional to a dose of MSM. 3. Blood ammonia concentration sharply increased to a steady-state level attained at 4.5 hr, which was proportional to a dose of MSM. The excretion rate of urinary ammonia augmented linearly up to the dose dependent maximum rates within 2-5 hr. 4. Plasma uric acid concentration dropped linearly by about 6.4 mg/100 ml at doses of 50, 75 and 100 mg MSM and by 3.7 mg/100 ml at a dose of 20 mg MSM within 2.5 hr, then recovered a little. 5. The decreases in excretion rates of urinary uric acid for the first 4 hr were almost the same at doses of 50 mg and larger, being twice as large as that of the control chicken. 6. Any doses of MSM affected neither the time course of excretion rate of total urinary nitrogen nor its total amounts for 7 hr after MSM treatment.