Effect of long-term exposure of rabbits to ultraviolet radiation on the level, creation and inactivation of kinins in blood

Experimental rabbits were exposed to ultraviolet radiation during 6 weeks once daily for 10 minutes (from a high-pressure. Hanau Q 400 mercury lamp with a Schott UG 2 T filtre and absorber of long-wave radiation using ultraviolet rays of 405--289 nm wavelength and 134 000 erg/sec/cm2 power, directed onto skin with cropped hair of the back). Under general anaesthesia with pentothal blood samples were obtained from the carotid artery in 4 groups of 8 rabbits in each group. The blood samples were taken from non-exposed control rabbits and from the experimental groups after 2, 4 and 6 weeks of exposure. In the samples the levels of free kinins in the blood, and kininogen, and the activity of kallikreins and kininases in the plasma were determined. In the irradiated animals a progressive rise of free kinins most pronounced after 6 weeks was observed, and other findings included: a fall of kininogen level particularly steep after 2 weeks, very small rise in the activity of kallikreins, and progressing reduction of the activity of kininase, particularly steep after 2 weeks.     

Generation, in activation and level of blood kinins during tourniquet shock in rabbits

Traumatic shock was induced by the tourniquet method compressing one thigh during 10 hours. Venous blood samples were taken from control animals, as well as twice in the nervous phase of shock - after application and before removal of the tourniquet, and in the humoral-toxic phase - 1, 3 and 5 hours after tourniquet removal, in groups of 10 animals. Determinations included blood kinin level, and plasma kininogen level, and the activity of kallikreins and kininases in the plasma. It was found that during tourniquet shock a significant change occurred in the whole blood kinin system. Proportionally to the severity of shock the level of free kinins and kallikrein activity increased 3-4, times and the level of kininogen and the activity of kininases decreased, especially 3 hours after tourniquet removal.     

The conjunctival lymphatic bed of the rabbit in exposure to ultraviolet radiation]

Morphofunctional state of the lymphatic bed of the conjunctiva has been studied under effect of ultraviolet radiation. A comparative characteristics of development of the clinical picture and morphological criteria of the harmful effect of the ultraviolet radiation is presented. When all clinical symptoms disappear, there is no complete restoration of the capacitance function of the lymphatic vessels and intracellular regeneration of ultra-microscopical structures of endotheliocytes.     

Molecular response of nasal mucosa to therapeutic exposure to broad-band ultraviolet radiation

Ultraviolet radiation (UVR) phototherapy is a promising new treatment for inflammatory airway diseases. However, the potential carcinogenic risks associated with this treatment are not well understood. UV-specific DNA photoproducts were used as biomarkers to address this issue. Radioimmunoassay was used to quantify cyclobutane pyrimidine dimers (CPDs) and (6–4) photoproducts in DNA purified from two milieus: nasal mucosa samples from subjects exposed to intranasal phototherapy and human airway (EpiAirway™) and human skin (EpiDerm™) tissue models. Immunohistochemistry was used to detect CPD formation and persistence in human nasal biopsies and human tissue models. In subjects exposed to broadband ultraviolet radiation, DNA damage frequencies were determined prior to as well as immediately after treatment and at increasing times post-treatment. We observed significant levels of DNA damage immediately after treatment and efficient removal of the damage within a few days. No residual damage was observed in human subjects exposed to multiple UVB treatments several weeks after the last treatment. To better understand the molecular response of the nasal epithelium to DNA damage, parallel experiments were conducted in EpiAirway and EpiDerm model systems. Repair rates in these two tissues were very similar and comparable to that observed in human skin. The data suggest that the UV-induced DNA damage response of respiratory epithelia is very similar to that of the human epidermis and that nasal mucosa is able to efficiently repair UVB induced DNA damage.     

Response of the agarophyte Gelidium floridanum after in vitro exposure to ultraviolet radiation B: changes in ultrastructure, pigments, and antioxidant systems

As a source of agar, the red macroalga Gelidium floridanum is a seaweed of great economic importance. However, it grows in a region exposed to high ultraviolet B radiation (UVBR). Therefore, to study the in vitro effect of UVBR on this plant, apical segments of G. floridanum were cultivated and exposed to photosynthetically active radiation (PAR) at 80?μmol photons m^?2?s^?1 and PAR + UVBR at 1.6?W?m^?2 at 3?h per day for 7?days. The samples were processed for electron microscopy, and agar yield, growth rates, mitochondrial activity, protein levels, chlorophyll a, phycobiliproteins, carotenoids and phenolic compounds, and photosynthetic performance were examined. After 7?days of exposure to PAR + UVBR, G. floridanum experienced ultrastructural damage that was primarily observed in the internal organization of chloroplasts, increased cell wall thickness, as well as increased volume of plastoglobuli and free ribosomes. Moreover, this exposure might have caused photodamage and photoinhibition of photosynthetic pigments (chlorophyll a and phycobiliproteins), leading to a decrease in photosynthetic efficiency, relative electron transport rate, and maximum photosynthetic rate. These phenomena were matched with a corresponding decrease in growth rates and depigmentation, combined with partial necrosis of the apical segments exposed to PAR + UVBR. Additionally, the UVBR-induced damage elicited a marked cellular antioxidant response, possibly as a consequence of free radical generation.     

Childhood exposure to ultraviolet radiation and harmful skin effects: epidemiological evidence

We review the general amount and patterns of exposure to solar ultraviolet (UV) radiation that children and teenagers experience and the spectrum of UV-related skin damage that can occur as a result. Data about the amount of solar UV received by children and teenagers are relatively few but suggest that around 40–50% of total UV to age 60 occurs before age 20. Among white children, those with the palest complexions suffer the most damage. Comparisons of prevalence and incidence of outcomes in children and teenagers sharing common ancestry, but living at different latitudes, show that prevalence rates of photoaging and melanocytic naevi are higher in Australian compared with British children, and similarly for melanoma. Genetic risk for the majority of the melanomas in teens is a function of genes controlling naevus propensity and pigmentation in the skin. High numbers of naevi and freckles, red hair, blue eyes, inability to tan, as well as a family history are the primary determinants of melanoma among adolescents. Beyond the signs of skin damage seen in children are the latent effects observed later in adulthood. Childhood is believed to be a susceptible window for long-term harmful effects of UV, as evidenced by clear differences in skin cancer risk between child and adult migrants from high to low latitudes. Effective UV radiation protection from childhood is necessary to control both immediate and long-term harmful effects on children’s skin.     

Differential responses of Nostoc sphaeroides and Arthrospira platensis to solar ultraviolet radiation exposure

During October to December 2003 we carried out experiments to assess the impact of high solar radiation levels (as normally occurring in a tropical region of Southern China) on the cyanobacteria Nostoc sphaeroides and Arthrospira (Spirulina) platensis. Two types of experiments were done: a) Short-term (i.e., 20 min) oxygen production of samples exposed to two radiation treatments (i.e., PAR+UVR—280–700 nm, and PAR only—400–700 nm, PAB and P treatments, respectively), and b) Long-term (i.e., 12 days) evaluation of photosynthetic quantum yield (Y) of samples exposed to three radiation treatments (i.e., PAB; PA (PAR+UV-A, 320–700 nm) and P treatments, respectively). N. sphaeroides was resistant to UVR, with no significant differences (P>0.05) in oxygen production within 20 min of exposure, but with a slight inhibition of Y within hours. A fast recovery of Y was observed after one day even in samples exposed to full solar radiation. A. platensis, on the other hand, was very sensitive to solar radiation (mainly to UV-B), as determined by oxygen production and Y measurements. A. platensis had a circadian rhythm of photosynthetic inhibition, and during the first six days of exposure to solar radiation, it varied between 80 and 100% at local noon, but cells recovered significantly during afternoon hours. There was a significant decrease in photosynthetic inhibition after the first week of exposure with values less than 50% at local noon in samples receiving full solar radiation. Samples exposed to PA and P treatments recovered much faster (within 2–3 days), and there were no significant differences in Y between the three radiation treatments when irradiance was low (late afternoon to early morning). Long-term acclimation seems to be important in A. platensis to cope with high UVR levels however, it is not attained through the synthesis of UV-absorbing compounds but it seems to be mostly related to adaptive morphological changes.     

Changes in biochemical parameters in rabbits blood after oral exposure to diphenyl diselenide for long periods

The concept that selenium-containing molecules may be better antioxidants than classical antioxidants, has led to the design of synthetic organoselenium compounds. The present study was conducted to evaluate the potential toxicity of long time oral exposure to diphenyl diselenide (PhSe)2 in rabbits. Male adult New Zealand rabbits were divided into four groups, group I served as control; groups II, III and IV received 0.3, 3.0 and 30 ppm of (PhSe)2 pulverized in the chow for 8 months. A number of parameters were examined in blood as indicators of toxicity, including delta-aminolevulinate dehydratase (delta-ALA-D), catalase, glutathione peroxidase (GPx), alanine aminotransferase (ALT), aspartate aminotransferase (AST), urea, creatinine, TBARS, non-protein-SH, ascorbic acid and selenium. The results demonstrated that 6 and 8 months of 30 ppm (PhSe)2 intake caused a significant increase in blood delta-ALA-D activity. Erythrocyte non-protein thiol levels were significantly increased after 2 months of 30 ppm (PhSe)2 intake and then return to control levels after prolonged periods of intake. Ingestion of 3.0 ppm of (PhSe)2 for 8 months significantly increased catalase activity in erythrocytes. Conversely, no alterations in GPx, ALT, AST, TBARS and selenium levels were observed in rabbit serum, conversely, selenium levels in peri-renal adipose tissue were significantly increased after 8 months of 30 ppm (PhSe)2 intake, indicating its great lipophylicity. The present results suggest that diphenyl diselenide was not hepato- or renotoxic for rabbits, but caused some biochemical alterations that can be related to some pro-oxidant activity of the compound (particularly the reduction in Vitamin C).     

Mutagenesis after exposure of bacteria to ultraviolet light and delayed photoreversal

Summary The induction of mutations by ultraviolet light and delayed photoreversal in bacteria defective for SOS mutagenesis is discussed in terms of two models: the two-step misincorporation and bypass model, and the model involving simple deamination of cytosine-containing dimers. In phage S13 the latter appears to be the predominant mechanism. In Escherichia coli there is little evidence that the simple deamination mechanism is of any significance except in ung strains lacking uracil glycosylase where uracils left after photoreversal are not removed. Deamination might, however, occur during the operation of translesion synthesis via the two-step model and if it did, subsequent photoreversal would lead to the mutation being extended from one to both strands by uracil glycosylase repair rather than being removed.     

Multiplicity reactivation of reovirus particles after exposure to ultraviolet light

McClain, Mary E. (California State Department of Public Health, Berkeley), and Rex S. Spendlove. Multiplicity reactivation of reovirus particles after exposure to ultraviolet light. J. Bacteriol. 92:1422-1429. 1966.-Exposure of reovirus suspensions to moderate doses of ultraviolet light results in essentially exponential inactivation of infectivity to survivals of 10(-2) to 10(-3). With suspensions of sufficiently high particle concentration, larger doses of ultraviolet light (6 to 12 min) are associated with multiplicity reactivation (MR) which is demonstrable both by immunofluorescent-cell count and by plaque assay in FL human amnion cells. Similar effects are produced by photodynamic inactivation in the presence of proflavine, but not by thermal inactivation at 50 C. All three reovirus types exhibit MR under appropriate conditions, and all three interact in mixed ultraviolet suspensions with high efficiency. Progeny from FL cells infected under conditions of MR were as infectious as those of unirradiated inocula, with yields per cell ranging from 10(4) to 4 x 10(4) infective units.     

Expression of blood serum proteins and lymphocyte differentiation clusters after chronic occupational exposure to ionizing radiation

This study aimed to assess effects of chronic occupational exposure on immune status in Mayak workers chronically exposed to ionizing radiation (IR). The study cohort consists of 77 workers occupationally exposed to external gamma-rays at total dose from 0.5 to 3.0 Gy (14 individuals) and workers with combined exposure (external gamma-rays at total dose range 0.7–5.1 Gy and internal alpha-radiation from incorporated plutonium with a body burden of 0.3–16.4 kBq). The control group consists of 43 age- and sex-matched individuals who never were exposed to IR, never involved in any cleanup operations following radiation accidents and never resided at contaminated areas. Enzyme-linked immunoassay and flow cytometry were used to determine the relative concentration of lymphocytes and proteins. The concentrations of T-lymphocytes, interleukin-8 and immunoglobulins G were decreased in external gamma-exposed workers relative to control. Relative concentrations of NKT-lymphocytes, concentrations of transforming growth factor-β, interferon gamma, immunoglobulins A, immunoglobulins M and matrix proteinase-9 were higher in this group as compared with control. Relative concentrations of T-lymphocytes and concentration of interleukin-8 were decreased, while both the relative and absolute concentration of natural killers, concentration of immunoglobulins A and M and matrix proteinase-9 were increased in workers with combined exposure as compared to control. An inverse linear relation was revealed between absolute concentration of T-lymphocytes, relative and absolute concentration of T-helpers cells, concentration of interferon gamma and total absorbed dose from external gamma-rays in exposed workers. For workers with incorporated plutonium, there was an inverse linear relation of absolute concentration of T-helpers as well as direct linear relation of relative concentration of NKT-lymphocytes to total absorbed red bone marrow dose from internal alpha-radiation. In all, chronic occupational IR exposure of workers induced a depletion of immune cells in peripheral blood of the individuals involved.     

Slow sodium inactivation in nerve after exposure to sulhydryl blocking reagents

Exposure to N-ethylmaleimide (NEM), a reagent that binds covalently to protein sulfhydryl groups, results in a specific reduction in sodium conductance in crayfish axons. Resting potential, the delayed rise in potassium conductance, and the selectivity of the sodium channel are unaffected. Sodium currents are only slightly increased by hyperpolarizing prepulses of up to 50 ms duration, but can be restored to about 70% of their value before treatment if this duration is increased to 300-800 ms. The time to peak sodium current and the time constant of decay of sodium tail currents are unaffected by NEM, suggesting that the sodium activation system remains unaltered. Kinetic studies suggest that NEM reacts with a "slow" sodium inactivation system that is present in normal axons and that may be seen after depolarization produced by lowered the holding potential or increasing the external potassium concentration. NEM also perturbs the fast h inactivation system, and in a potential-dependent manner. At small depolarizations tauh is decreased, while at strong depolarizations it is increased over control values. Experiments with structural analogs of NEM suggest that sulfhydryl block is involved, but do not rule out an action similar to that of local anesthetics, p- Chloromercuriphenylsulfonic acid (PCMBS), another reagent with high specificity for SH groups, also blocks sodium currents, but restoration with prolonged hyperpolarizations is not possible.     

Rapid dicentric assay of human blood lymphocytes after exposure to low doses of ionizing radiation

The probability of losses of different chromosome aberrations during the dicentric chromosome assay of metaphase cells with incomplete sets of chromosome centromeres was estimated using a mathematical model for low doses of ionizing radiation. A dicentric assay of human blood lymphocytes without determination of the total amount of chromosome centromeres in cells without chromosome aberrations (rapid dicentric assay) has been proposed. The rapid dicentric analysis allows to register chromosome aberrations in full compliance with the conventional classification. The experimental data have shown no statistically significant difference between the frequencies of dicentric chromosomes detected by rapid and classical dicentric chromosome assays of human lymphocytes exposed to 0.5 Gy of 60Co gamma-rays. The rate of the rapid dicentric assay was almost twice as high as that of the classical dicentric assay.     

Relative susceptibilities of caffeine-sensitive and caffeine-resistant strains of Candida albicans to inactivation and mutation by ultraviolet radiation

Summary Stable variants having increased resistance to growth inhibition by caffeine were obtained from four different absolute, amino acid auxotrophs of Candida albicans. Differences in growth rates and expression of auxotrophy between the resistant (Caf^R) variants and their sensitive (Caf^S) progenitors suggest that caffeine resistance arises through suppressor mutations which affect the fidelity of messenger RNA translation.Both Caf^S and Caf^R strains of C. albicans are more susceptible to inactivation by ultraviolet radiation (uv) when grown at 37°C rather than 25°C following exposure. Post irradiation growth on caffeine potentiates ultraviolet inactivation of all Caf^S strains at both temperatures. Depending on its origin, a Caf^R strain (i) may show greater, lesser or the same intrinsic susceptibility to uv inactivation as its Caf^S parent at 25°C or at 37°C and (ii) may or may not be refractory to post-irradiation contact with caffeine. Caf^R variants independently isolated from a given auxotroph are alike in inactivational responses whereas those obtained from different auxotrophs are dissimilar. This implies that different suppressor mutations are unique in the way they affect expression of potentially lethal uv damage and that only one kind of suppressor is obtained by selection for caffeine resistance in a particular auxotroph.The histidine requiring Caf^R strain WB-2CR is much more resistant to uv inactivation that its Caf^S parent WB-2. Moreover, post-irradiation survival of WB-2CR is unaffected by caffeine. However, WB-2CR and WB-2 are equally susceptible to uv-induced reversion to prototrophy. In both strains, caffeine does not enhance uv-induced reversion at 25°C or 37°C and exhibits an antimutagenic activity at high uv dosage at 37°C.The findings reinforce previously reported indications that, in C. albicans, (i) caffeine-sensitive excision-repair of uv damaged DNA does not occur and (ii) caffeine potentiates uv cellular inactivation by disturbing post-irradiation synthesis of protein essential for recovery from non-genetic damage.