Prenatal and neonatal irradiation in dogs: hematologic and hematopoietic responses

Hematologic and hematopoietic responses were evaluated in beagle dogs following a single prenatal (35 days gestation) or neonatal (10 days postpartum) exposure to 1.5 Gy 60Co gamma radiation. Hematopoiesis was studied by the in vitro culture of bone marrow granulocyte-macrophage progenitors (CFU-GM). Prenatally irradiated dogs exhibited a progressive, significant reduction in CFU-GM which was accompanied by decreases in peripheral blood leukocytes up to 24 weeks of age. Dogs which were neonatally irradiated also demonstrated a significant reduction in CFU-GM which was accompanied by significant alterations in peripheral white and red blood cell parameters. This was transient, however, and these dogs showed partial recovery of CFU-GM and hematologic parameter by 24 weeks of age. The persistent CFU-GM deficit in prenatally irradiated dogs suggests a relatively greater sensitivity of fetal marrow as compared to neonatal bone marrow for long-term damage by ionizing radiation.     

Effects of prenatal irradiation on behaviour and hippocampal neurogenesis in adult rats

Prenatal irradiation is known to have aversive effects on the brain development, manifested in changes in some behavioural parameters in adult individuals. The aim of our work was to assess the effect of prenatal irradiation on different forms of behaviour and on hippocampal neurogenesis in rats. Pregnant female rats were irradiated with a dose of 1 Gy of gamma rays on the 16th day of gravidity. The progeny of irradiated and control animals aged 3 months were tested in Morris water maze (MWM), open field (OF) and in elevated plus maze test (PM). The prenatal irradiation negatively influenced the short-term spatial memory in MWM in female rats, although the long-term memory was not impaired. A statistically significant increase of basic locomotor activity in OF was observed in irradiated rats. The comfort behaviour was not altered. The results of PM showed an increase of anxiety in irradiated females. The level of hippocampal neurogenesis, assessed as the number of cells labelled with 5-bromo-2-deoxyuridine in the area of gyrus dentatus, was not statistically different in irradiated rats. Our results indicate, that prenatal irradiation with a low dose of gamma-rays can affect some innate and learned forms of behaviour in adult rats. We did not confirm a relation of behavioural changes to the changes of hippocampal neurogenesis.     

Effect of continuous, whole-body gamma irradiation upon canine lymphohematopoietic (CFU-GM, CFU-L) progenitors and a possible hematopoietic regulatory population

Clonogenic assays for granulocytes-macrophages (CFU-GM) in bone marrow and for T lymphocytes (CFU-L) in peripheral blood were performed on dogs continuously exposed to 60Co irradiation (0.02, 0.04, or 0.11 Gy/day). When decreased numbers of CFU-GM were observed they correlated well with the clinical status of the dogs but were not generally associated with increasing cumulative doses of absorbed irradiation. In clinically normal, irradiated animals, decreased CFU-GM values and myeloid-erythroid ratios were observed, suggesting that chronic irradiation may affect the granulocytic series well before decreased peripheral blood values are seen. In hypocellular dogs the number of CFU-GM were significantly decreased compared to values obtained from control or clinically normal irradiated dogs, while virtually no CFU-GM were observed in the leukemic dogs. Only the CFU-GM values of the hypocellular group showed an association, e.g., a suggestion of an abortive regenerative effort, with increasing absorbed dose. Proliferative capacity of T lymphocytes (CFU-L) was not affected by either increasing absorbed irradiation or the presence of leukemia. D0 values were determined on marrow fibroblastic cells to ascertain whether a radioresistant subpopulation of stromal elements would result from continuous in vivo irradiation. No correlation was found between absorbed dose and increased D0 values. However, seven of eight dogs which developed acute nonlymphocytic leukemia displayed marrow fibroblastic cells with elevated D0 values. These radioresistant marrow fibroblastic cells were assayed for their ability to support normal granulopoiesis and found to be not significantly different from control fibroblasts.     

Perinatal radiation-induced renal damage in the beagle

The developing perinatal kidney is particularly sensitive to radiation. The pathogenesis of the radiation-induced lesion is related to the destruction of outer cortical developing nephrons and direct radiation injury with secondary hemodynamic alterations in remnant nephrons. In this study, which is part of a life span investigation of the effects of whole-body gamma radiation during prenatal and early postnatal life, dogs were given 0, 0.16, 0.83, or 1.25 Gy irradiation at either 55 days postcoitus or 2 days postpartum and were examined morphometrically and histopathologically at 70 days of age. Although irradiated dogs showed no reduction in the total number of nephrons per kidney, there was a significant increase in the total number and relative percentage of immature, dysplastic glomeruli. In addition, deeper cortical glomeruli of irradiated kidneys exhibited mesangial sclerosis similar to that associated with progressive renal failure in our previous studies. These findings are in accord with those reported at doses of 2.24 to 3.57 Gy and demonstrate that the perinatal kidney is affected by radiation doses much lower than previously demonstrated.     

Acute post-irradiation canine intestinal blood flow

Radiation-induced early transient incapacitation (ETI) is accompanied by severe systemic hypotension, during which arterial blood pressure often decreases to less than 50 per cent of normal. One haemodynamic compensatory mechanism is increased peripheral resistance due to vasoconstriction. This vasoconstriction in the small intestine of dogs is disproportionately increased during haemorrhagic or endotoxic shock, and intestinal ischaemia is frequent. In an attempt to elucidate mechanisms underlying radiation-induced ETI and the gastrointestinal radiation syndrome, canine intestinal submucosal blood flow was measured by the hydrogen polarographic technique, both before and after exposure to gamma radiation. Systemic blood pressures, blood gases and haematocrits were determined simultaneously. Data obtained from 12 sham-irradiated dogs and 12 irradiated dogs indicated that 90 Gy, whole-body, gamma radiation produced a 31 per cent decrease in systemic mean blood pressure beginning within 20 min post-irradiation and lasting for at least 90 min. However, the intestinal submucosal blood flow did not decrease as anticipated, but it exhibited an actual post-irradiation increase. This increase in post-irradiation intestinal submucosal blood flow began within 5 min after irradiation and lasted for at least 90 min. Post-irradiation haematocrits were 10.5 per cent higher than those obtained before irradiation and those obtained from sham-irradiated subjects. Histopathological examination of ileal mucosa revealed significant pathologic lesions in some irradiated animals within two hours after exposure.     

裂变中子照射狗血清集落刺激因子的变化

利用体外半固体琼脂培养骨髓粒单系祖细胞的方法测定狗血清中集落刺激因子(CSF)活力。狗受1.3、1.7和2.0Gy裂变中子照射后1～15d,受照射动物血清CSF持续上升。2.0Gy照射动物死前血清CSF活力可为照射前7～20倍。1.3Gy及1.7Gy照射活存狗照射后13～30d CSF活力直线下降。γ线3.5和2.5Gy照射狗早期血清中CSF活力变动呈波动性,5～10d后持续上升的幅度也不如中子照射动物。 实验结果证明,血清CSF活力和外周血白细胞数的变化呈负相关。本文对中子照射动物血清CSF活力升高的机理和CSF在中子照射动物造血恢复中的意义进行了探讨。     

Spontaneous cell-mediated cytolysis by peripheral blood cells obtained from whole-body chronically irradiated beagle dogs

The level of natural killer (NK) activity of continuously gamma-irradiated (whole body) beagle dogs and their nonirradiated controls was studied. For analytical purposes, irradiated dogs were segregated into groups according to their clinical status: clinically normal, hypocellular, or with acute non-lymphocytic leukemia. Since unirradiated control animals exhibited a wide range of NK responses, the data from each irradiated animal were compared to its own age-matched or litter-matched unirradiated control. Of the eight clinically normal irradiated dogs (median = 146% activity of control) only one animal had a NK activity lower than that of its control. The hypocellular group (n = 5, median = 21.8% of control) and the leukemic group (n = 4, median = 52.5% of control) each contained one responder with higher activity than its control. The difference between the percentage of control of the clinically normal and clinically abnormal dogs was found to be significant (P less than 0.05). There is a negative correlation between the NK results obtained and the total accumulated dose of radiation at the time of sampling (correlation coefficient = -0.739, P less than 0.01), suggesting a radiation effect upon natural killer activity, which is evidence by enhancement at lower doses and depression at higher doses of irradiation.     

Use of EPR spectroscopy to check the changes in organism radioresistance. Experimental results

The responses of dNTP, DNA, and protein synthesis systems in blood-forming organs of animals (dogs, mice) as well as changes in blood Fe³⁺-transferrin (Fe-TF) and Cu²⁺-ceruloplasmin (Cu-CP) pools upon γ-irradiation and administration of radioprotectors have been studied. It is shown that changes in Fe-TF and Cu-CP pools are indices of change in body radioresistance and are reliably checked by the EPR technique. An increase in the Fe-TF pool promotes the activation of synthesis of dNTP, DNA, and Fe³⁺-containing proteins, which are essential for repair efficiency during early postirradiation time as well as for the development of compensatory-restorative reactions of cellular systems; i.e., they are responsible for body resistance to DNA-damaging factors. It is important that the intensity of responses depends on the initial state of the organism. Thus, dogs with initial individual characteristics of blood typical of “depressed” or “activated” states had abnormally high responses to irradiation at low doses of 0.25 and 0.5 Gy. This fact is important for estimating the consequences of prolonged low-dose irradiation for the human population. It has been shown that radioprotectors efficient in the survival test activate the synthesis of dNTP, DNA, and proteins in organs. The intensity of dNTP synthesis and the time when dNTP pools become maximal determine the efficiency of protectors and the time of irradiation after their administration.     

Reproductive and genetic effects of continuous prenatal irradiation in the pig

The stem germ cells of the prenatal pig are highly vulnerable to the cytotoxic effects of ionizing irradiation. This study was conducted to determine whether sensitivity to killing was also marked by a sensitivity to mutation and how prenatal depletion of the germ-cell population affects reproductive performance. Germ-cell populations were reduced by continuously irradiating sows at dose rates of either 0.25 or 1.0 rad/day for the first 108 days of gestation. The prenatally irradiated boars were tested for sperm-producing ability, sperm abnormalities, dominant lethality, reciprocal translocations, and fertility. Prenatally irradiated females were allowed to bear and nurture one litter, then tested for dominant lethality in a second litter; germ cell survival and follicular development were assessed in their serially sectioned ovaries. Sperm production was not significantly affected in the 0.25-rad boars, but boars irradiated with 1.0 rad per day produced sperm at only 17% of the control level. Incidence of defective sperm was 4.9% and 11.1% in the 0.25 and 1.0 groups, respectively. Four of the 1.0-rad boars were infertile, but prenatal irradiation apparently caused neither dominant lethality nor reciprocal translocations in fertile males. Number of oocytes was reduced to 66 +/- 7% of control in the 0.25-rad gilts, but reproductive performance was unaffected and no dominant lethality was observed. Only 7 +/- 1% of the oocytes survived in the 1.0-rad group. Reproductive performance was normal for the first litter, but four of the 23 sows tested were infertile at the second litter and a significant incidence of dominant lethality was observed.(ABSTRACT TRUNCATED AT 250 WORDS)     

Bystander-mediated genomic instability after high LET radiation in murine primary haemopoietic stem cells

Communication between irradiated and unirradiated (bystander) cells can result in responses in unirradiated cells that are similar to responses in their irradiated counterparts. The purpose of the current experiment was to test the hypothesis that bystander responses will be similarly induced in primary murine stem cells under different cell culture conditions. The experimental systems used here, co-culture and media transfer, are similar in that they both restrict communication between irradiated and bystander cells to media borne factors, but are distinct in that with the media transfer technique, cells can only communicate after irradiation, and with co-culture, cells can communication before, during and after irradiation. In this set of parallel experiments, cell type, biological endpoint, and radiation quality and dose, were kept constant. In both experimental systems, clonogenic survival was significantly decreased in all groups, whether irradiated or bystander, suggesting a substantial contribution of bystander effects (BE) to cell killing. Genomic instability (GI) was induced under all radiation and bystander conditions in both experiments, including a situation where unirradiated cells were incubated with media that had been conditioned for 24h with irradiated cells. The appearance of delayed aberrations (genomic instability) 10-13 population doublings after irradiation was similar to the level of initial chromosomal damage, suggesting that the bystander factor is able to induce chromosomal alterations soon after irradiation. Whether these early alterations are related to those observed at later timepoints remains unknown. These results suggest that genomic instability may be significantly induced in a bystander cell population whether or not cells communicate during irradiation.     

Characteristics of the dynamics of hematopoietic precursor cells cloned in diffusion chambers and recorded in experiments on mice and dogs irradiated in median lethal doses]

In experiments with mice and dogs irradiated with LD50, it was shown the postirradiation depopulation of haemopoietic polypotent (CFUs) cell-precursors in mouse bone marrow was more pronounced than that of granulocytic and macrophagal cells (CFUdc). The rate of repopulation of CFUs during the first week was higher than that of CFUdc (T1/2 was 2.5 and 8.8 days respectively). In dogs, one could notice a partial change in the colony formation, a prolonged plateau period in the postirradiation CFUdc dynamics, and a coincidence in time with cellularity restoration in the bone marrow and peripheral blood leukocytes. It is suggested that in conditions of heterogeneous incubation in diffuse chambers, the haemopoietic cell-precursors are more mature than in the syngeneic system. The method of CFUdc determination has proved to be ineffective in estimating the onset and intensity of the postirradiation haemopoiesis recovery in dogs. The study of the bone marrow CFUdc population may, however, be used in intact animals to predict the probability of their death after irradiation within the median lethal dose range.     

Defect of the cerebellar vermis induced by prenatal gamma-ray irradiation in radiosensitive BALB/c mice

The developing fetal brain is one of the most susceptible organs to irradiation insult. Prenatal irradiation-induced abnormalities in the cerebrum have been well examined in mouse fetuses. However, little information on abnormalities in the cerebellum caused by irradiation is available. Moreover, few reports have examined the chronological changes of the brain from the prenatal to the postnatal period. To analyze the chronological changes induced by irradiation, we exposed pregnant mice to gamma-ray irradiation on embryonic day 13.5 (E13.5) and investigated the histopathology of the cerebellum at several time points from E14.5 to postnatal day 28. BALB/cA mice were used, which is a radiosensitive strain, and C57BL/6J, which is a radioresistant strain. The irradiated BALB/c showed a remarkable vermis deficit after birth, and histological analysis demonstrated that there were severe losses of the external germinal layer (EGL) and Purkinke cell layer. TUNEL analysis shoed that apoptosis was strongly induce in the cerebellar anlage of the irradiated BALB/c compared to the C57BL/6J at E14.5. Immunohistochemical analysis revealed a significant decrease of phospho-histone H3 positive EGL cells in the irradiated BALB/c at E18.5 and E0, indicating that irradiation causes a decrease in the number of mitotic cells. The results suggest that the strong induction of apoptosis in radiosensitive BALB/c led to a decrease of proliferation activity in the cerebellar anlage during embryonic development, and consequently, severe cerebellar abnormality was evoked.     

The time dependence of bystander responses induced by iron-ion radiation in normal human skin fibroblasts

Although bystander effects have been shown for some high-LET radiations, few studies have been done on bystander effects induced by heavy-ion radiation. In this study, using a Transwell insert co-culture system, we have demonstrated that irradiation with 1 GeV/nucleon iron ions can induce medium-mediated bystander effects in normal AG01522 human fibroblasts. When irradiated and unirradiated bystander cells were combined in shared medium immediately after irradiation, a two- to threefold increase in the percentage of bystander cells with gamma-H2AX foci occurred as early as 1 h after irradiation and lasted at least 24 h. There was a twofold increase in the formation of micronuclei in bystander cells when they were co-cultured with irradiated cells immediately or 1 or 3 h after irradiation, but there was no bystander effect when the cells were co-cultured 6 h or later after irradiation. In addition, bystander micronucleus formation was observed even when the bystander cells were co-cultured with irradiated cells for only 1 h. This indicates that the crucial signaling to bystander cells from irradiated cells occurs shortly after irradiation. Moreover, both gamma-H2AX focus formation and micronucleus formation in bystander cells were inhibited by the ROS scavengers SOD or catalase or the NO scavenger PTIO. This suggests that ROS and NO play important roles in the initiation of bystander effects. The results with iron ions were similar to those with X rays, suggesting that the bystander responses in this system are independent of LET.     

Effects of irradiation on the nonlymphoid thymus in vitro

Thymic explant cultures were used to study the radiosensitivity of nonlymphoid thymic components in dogs. Thymic fragments from fetal (50 days gestation), newborn, and juvenile (70 days old) dogs were irradiated in vitro at 0, 0.5, 1, 2, or 4 Gy prior to culture. Colonies were classified as epithelial, spindle, or mixed cell type, and colony numbers were counted and diameters measured. Radiation caused a significant dose-related decrease in the number of spindle cell colonies from all ages. There was a corresponding, but smaller, dose-related increase in the number of epithelial colonies. The diameter of spindle cell colonies also decreased with dose, and this was accompanied by a reduction in cell density. While epithelial colony diameters did not change consistently with dose, there was an overall reduction in cell density in these colonies. This was more severe in the fetal than in the juvenile cultures. These results indicate that the putative mesenchymal (spindle cell) components of the thymus are significantly more radiosensitive than the epithelium at all ages and that fetal epithelium is more sensitive than epithelium from postnatal animals. This suggests that radiation-induced thymic epithelial defects reported after prenatal irradiation could be due to a combination of direct epithelial injury and defective inductive interaction between epithelium and the more radiosensitive mesenchyme.     

Immunisation of calves against bovine tropical theileriosis (Theileria annulata) with graded doses of sporozoites and irradiated sporozoites

Host responses to infections with serially diluted, unirradiated, infective Theileria annulata, tick tissue stabilates and irradiated stabilates, were compared and the resultant immunity tested against lethal homologous challenge. In infections due to unirradiated parasites duration of fever and proportion of schizontinfected cells in regional lymph nodes, and of parasitised erythrocytes in the peripheral circulation were directly related to the dose of the infective inoculum, whereas time responses, that is, times to first onset of fever and swelling of the regional lymph node, and to first appearance of parasites in the lymph node and blood were inversely related to the dose.Irradiation at 50 Gy did not appreciably affect the parasite. But in infections with the parasite irradiated at 100 Gy and 150 Gy, degrees of parasitisation were of reduced intensity and inversely proportional to the level of irradiation, whereas the time responses were unaffected except fever, onset of which was delayed. The minimal effect on time responses suggested that irradiation might have altered virulence rather than reduced the number of infective units in the inoculum.All the calves surviving the immunising infections fully resisted the challenge which produced severe theileriosis in unimmunised calves killing 3 of them. It was concluded, therefore, that both methods of immunisation conferred comparable levels of immunity on the animals.     

The dynamics of folliculogenesis in the ovary of the progeny of animals irradiated in embryogenesis and early postnatal life

The prolonged irradiation with 1.0 Gy dose in prenatal and early postnatal periods of development of rats leads to the disturbance in the rate of follicular growth, the reduction of their pool, mainly the pool of young forms of oocytes. Processes of degeneration and destruction occur and develop in the ovary of both the irradiated rats and their first progeny.     

He-Ne激光照射对血液及其组分荧光光谱影响的实验研究

为研究弱激光照射对人血液携氧能力的影响及机制,我们用荧光仪分别测量了He-Ne激光照射前后正常血液及其组分（血浆、红细胞）的荧光光谱,研究了激光照射导致的光谱变化,并分析了光谱变化与血液携氧能力改变的关系。实验结果显示：全血液标本在490nm及614nm附近有荧光峰值;血浆的荧光则主要分布在420－500nm之间;红细胞在500nm及614nm附近有荧光。He-Ne激光照射后,全血液及红细胞在614nm处的荧光谱都有较明显的变化,且较相似。由此可得出结论,He-Ne激光照射可影响血液的携氧能力。     

Cytogenetic study of the bone marrow and peripheral blood lymphocytes in monkeys in long-term gamma irradiation

A comparative study of chromosome structures of bone marrow and peripheral blood cells has been carried out in 8 rhesus macaques (2-7 years of age), 4 of which survived after prolonged low-capacity (3.87 microA/kg) gamma irradiation, the total dose being 7.97 Gy (LD50/60). It has been established that prolonged low-capacity gamma irradiation was of a high mutagenic activity. Various tissues of irradiated monkeys showed differences in the frequency (4 months) and types (4-33 months) of aberrations within the period of 4 to 33 months following irradiation. Mutagenic effect characteristic of the early period after the irradiation was retained in the peripheral blood of irradiated monkeys within the period of observation.     

Cytokine profiles in mice tissues after irradiation of the thymus projection area with femtosecond laser

The effects of pulsed femtosecond laser irradiation in the near ultraviolet region on the levels of cytokines in the thymus, blood, and skin of irradiated mice have been studied. Irradiation of the thymus projection area with low-intensity laser radiation in the near UV region of the spectrum showed significant changes in cytokine levels in the skin and thymus and, to a lesser extent, in the blood of irradiated mice. Laser irradiation with a power density of 20 mW/cm² affects the cytokine profile in the thymus: IFN-γ, IL-3, IL-4, IL-5, eotaxin, GM-CSF, and chemokine KC–factors that can affect differentiation and proliferation of the cells of the immune system in the gland. Conclusions: It is assumed that changes in the expression of cytokines in the thymus after laser irradiation are explained by the rearrangement of biochemical processes possibly associated with the maturation of cells in the gland.     

Interleukin-1 is identical to hemopoietin-1: Studies on its therapeutic effects on myelopoiesis and lymphopoiesis

Conditioned medium from the human tumor cell line HBT 5637 possesses a unique hematopoietic activity, originally termed hemopoietin-1. Hemopoietin-1 alone does not stimulate bone marrow colony formation or proliferative responsesin vitro, but rather potentiates responses to other hematopoietic growth factors, such as CSF-1 and GM-CSF. In studies designed to characterize the molecular nature of this factor, it was found by molecular, biochemical biological and serological criteria that all the hemopoietin-1 like activity could be attributed to IL-1. The therapeutic potential of IL-1 was then tested in a system where myelopoiesis is depressed by whole body irradiation. After 750 R irradiation, mice were administered IL-1 twice daily for the duration of the experiment. Mice which received IL-1 treatment had an accelerated recovery of marrow colony forming capacity which was also reflected by significantly higher blood neutrophil levels as compared to control irradiated mice. IL-1 treated irradiated mice also had a significant increase in resistance to bacterial challenge 14 days post irradiation. Thus, IL-1 treatment was effective in augmenting myelopoiesis following sublethal whole body irradiation. The effects of the IL-1 treatment on the recovery of lymphocyte numbers was also assessed. Here the IL-1 treated irradiated mice had fewer lymphocytes and depressed mitogen responses by spleen cells. Indeed the thymus of the IL-1 treated irradiated mice remained chronically hypoplastic for the duration of the experiment. Although IL-1 treatment increased myeloid progenitors in the bone marrow, it caused a decrease in the frequency of pre-B cells. Thus, IL-1 administration is an effective treatment for accelerating myeloid recovery following the cytore ductive effects of irradiation, but the myelopoietic augmentation may be at the expense of lymphoid recovery.