OXYGEN-DEPENDENCE OF NEAR UV (365 NM) LETHALITY AND THE INTERACTION OF NEAR UV AND X-RAYS IN TWO MAMMALIAN CELL LINES

Abstract— The colony-forming ability of Chinese hamster cells (V-79) and HeLa cells has been measured after near-ultraviolet (UV) irradiation, predominantly at 365 nm. To avoid the production of toxic photoproducts, cells were irradiated in an inorganic buffer rather than in tissue culture medium. Under these circumstances near-UV lethality was strongly oxygen-dependent. Both cell lines were approximately 10⁴ times more sensitive to 254 nm irradiation than to 365 nm radiation when irradiated aerobically. Pretreatment with 6 times 10⁵ Jm^-2 365 nm radiation sensitised the HeLa, but not the V-79 cell line to subsequent X-irradiation. Pretreatment of cells with 17 Jm^-2 254 nm radiation, a dose calculated to produce twenty times more pyrimidine dimers than the 365 nm dose, produced only slight sensitisa-tion to X-rays. It is suggested that the sensitisation to X-rays seen in the HeLa cells after 365 nm treatment is not the result of lesions induced in DNA by the near-UV radiation, but may reflect the disruption of DNA-repair systems.     

THE ACTION SPECTRUM AND DOSE RESPONSE STUDIES OF UNSCHEDULED DNA SYNTHESIS IN NORMAL HUMAN FIBROBLASTS

Abstract— Excision repair of DNA damage by UV has been assessed in normal human fibroblasts in culture by measuring unscheduled DNA synthesis. Dose response experiments indicated that the same chromophore was involved in UV-induced damage and excision repair at three different wavelengths between 260 and 300 nm. Action spectra for unscheduled DNA synthesis were determined at wavelengths between 260 and 320 nm 30 min after irradiation using 2 doses of UV, 100 J m^-2and 10Jm^-2. Experiments at the lower dose were carried out because it appeared that repair was saturated with the higher dose at 260 and 280 nm. To explore this part of the spectrum further, experiments were performed with different doses at 260 and 280 nm and unscheduled DNA synthesis assessed 30 min and 24 h after irradiation. At 24 hr after irradiation a significantly greater amount of unscheduled DNA synthesis occurred at 280 nm. It is suggested, therefore, that both DNA and protein are concerned in the absorption of UV which leads to DNA damage and excision repair.     

SYNERGISTIC INTERACTION BETWEEN THE TRYPTOPHAN PHOTOPRODUCTS AND NEAR-ULTRAVIOLET LIGHT IN AMOEBA

Abstract. Both S- and G₂-phase cells of amoeba are found to be sensitized by coirradiation of cells with Tryptophan (Trp). At a fluence of 1.5 times 10⁵ Jm^-2 to which G₂ phase cells are resistant, they show a drastic (8-fold) increase in sensitivity when irradiated in 0.5% Trp solution. Freshly irradiated Trp solution is found to be lethal to G₂ cells that have received a sublethal fluence of near-UV light. Irradiated Trp, however, does not kill unirradiated amoeba.
Nuclear transplantation experiments have shown that the lethality of cells when coirradiated with Trp is due to damage located predominantly in the cytoplasm. It is suggested that sublethal fluence of near-UV light makes the cells "leaky" to the toxic photooxidation products of Trp solution.     

XERODERMA PIGMENTOSUM COMPLEMENTATION GROUP F: MORE ASSIGNMENTS AND REPAIR CHARACTERISTICS

Abstract— The specific heterodikaryon complementation method enabled us to assign three patients with mild xeroderma pigmentosum (XP) symptoms (XP25KO, XP27KO, XP28KO) to complementation group F. UV-induced unscheduled DNA synthesis (UDS) remained unnormalized in the heterodikaryons between either of the above three XP strains and the reference group F XP3YO. All these particular XP strains as well as XP3YO exhibited an equally low level of10–15% UDS by a 3 h [³H]-thymidine labeling following 10 J/m² 254 nm UV, while they attained 60% UDS of normal at an extended time of 25 h. The present group F strains were 3 and 1.5 times as sensitive to the lethal effect of UV as normal and XP group E cells, respectively, based on the mean lethal dose ( Do ) comparison. Normal cells had the biphasic time-UDS kinetics of early rapid and late slow repair. Characteristically, however, all of the present group F strains were defective in only early rapid repair, but normally proficient in slow repair.     

UV-INDUCED ALKALINE LABILE DNA DAMAGE IN HUMAN ADENOVIRUS AND ITS REPAIR AFTER INFECTION OF HUMAN CELLS

Abstract— UV-induced alkaline labile viral DNA damage was detected following irradiation of adenovirus type 2 and found to be repaired following the infection of human KB cells. Human adenovirus type 2 was irradiated with various doses of UV and subsequently used to infect human KB cells in tissue culture at approximately 2 × 10³ particles per cell. Before, and at various times after infection, the viral DNA was examined on alkaline sucrose gradients. Irradiated free virus DNA showed a dose dependent decrease in molecular weight compared to unirradiated virus DNA, indicating the presence of UV-induced alkaline labile lesions. Furthermore, an increase in the molecular weight of the irradiated virus DNA was found after infection indicating that alkaline labile lesions were removed from the viral DNA by a host mediated repair mechanism. After infection, the molecular weight of the irradiated virus DNA reached a value similar to that of unirradiated virus DNA for all the UV doses studied.     

PRIOR EXPOSURE OF HUMAN CELLS TO NEAR UV-RADIATION GIVES A DECREASE IN THE AMOUNT OF THE UNSCHEDULED DNA-SYNTHESIS INDUCED BY FAR UV-RADIATION

Pretreatment of human cells with near UV radiation (UVA) in fluences exceeding 5 × 10⁴ Jm⁻² caused a decrease in the amount of the unscheduled DNA synthesis induced by far UV radiation (UVC). The DNA repair synthesis, as measured by the incorporation of [³H] -thymidine, is reduced by nearly a factor of 2 for a UVA radiation exposure of 1.5 × 10⁵ Jm⁻². Since solar UVA fluence rate is rather independent of latitude, this figure corresponds to a UVA exposure time of 50-60 min from noon sunlight in the summer time.     

LASER-UV-MICROIRRADIATION OF CHINESE HAMSTER CELLS: THE INFLUENCE OF THE DISTRIBUTION OF PHOTOLESIONS ON UNSCHEDULED DNA SYNTHESIS

Abstract— Fibroblastoid Chinese hamster cells synchronized by mitotic selection were microirradiated in G1, using a low power laser-UV-microbeam (λ= 257 nm). The incident energy was either concentrated on a small part of the nucleus (mode 1) or distributed over the whole nucleus (mode 11). Using the same incident UV energy, the local UV fluences were estimated to differ by two orders of magnitude. Following microirradiation the cells were incubated with [³H]-thymidine for 2 h and thereafter processed for autoradiography. Silver grains were concentrated over the microirradiated part after mode 1 and distributed over the whole nucleus after mode 11 irradiation. To quantify the amount of unscheduled DNA synthesis, the number of grains per nucleus was determined. It increased with the total incident energy, but was not or only slightly affected by the mode of microirradiation, if appropriate autoradiographic conditions were used. The findings suggest that within the investigated range of energy densities (2.7–1000 J/m²), the total amount of unscheduled DNA synthesis depends on the total number of pyrimidine dimers but not on their distribution in nuclear DNA.     

DNA SYNTHESIS-KINETICS, CELL DIVISION DELAY, AND POST-REPLICATION REPAIR AFTER UV IRRADIATION OF FROZEN CELLS OF E. COLI B/r

Abstract— Previous studies have shown that the relative yields of photoproducts produced in the DNA of Escherichia coli cells UV irradiated at -79°C differ from those produced at +21°C; the yield of DNA-protein cross-links was markedly enhanced at -79°C while the yield of thymine dimers was reduced. In the present studies, cells of E. coli B/r thy were frozen at -79°C, and then UV irradiated (254nm) while frozen(4.7 J m^-2), or after thawing (22 Jm^-2). Essentially the same survival, cell division delay, and DNA synthesis kinetics were observed for these two samples after irradiation, even though the UV fluence differed by a factor of ˜5. This supports previous observations that a correlation exists between the magnitude of the effects of UV radiation upon DNA synthesis kinetics and on cell survival. The weight average molecular weight of the pulse labeled DNA in the sample irradiated at +21°C was one-half that of the sample irradiated at -79°C, and complete repair of daughter-strand gaps was observed in both cases. Thus, UV-induced lesions produced in cells at -79°C (i.e. DNA-protein cross-links) appear to be amenable to post-replicational repair. While the overall DNA synthesis kinetics were the same for the two irradiation procedures, the apparent number of lesions produced per unit length of DNA was not. This suggests that each of the lesions produced in frozen cells, although apparently fewer in number, must cause a longer local delay in DNA synthesis than those lesions produced at +21°C.     

DRUG SENSITIZATION: PHOTOBINDING OF SULFANILAMIDE TO BOVINE SERUM ALBUMIN

Abstract— Photobinding of sulfanilamide to bovine serum albumin (BSA) was investigated by irradiating BSA and buffered BSA/drug solutions with UV light (Λ= 300 nm) under anaerobic conditions. The protein solutions were then denatured and the unbound sulfanilamide removed. Marked differences in the UV and fluorescence spectra of the solutions before and after irradiation were observed, suggesting covalent binding of the drug to BSA. This was confirmed using [¹⁴C]labelled sulfanilamide. The extent of photobinding of sulfanilamide determined using the radiolabeled drug, was concentration dependent. The binding ratio varied from 3 mol drug per mol BSA for a 10^-4 M drug concentration, to 10 mol drug per mol BSA for 10^-2 M drug concentration.
The protein solutions were hydrolysed under acid conditions and the amino acids obtained were analysed by ion exchange chromatography. The hydrolysate of irradiated BSA (10^-4 M ) -sulfanilamide (10^-2 M ) mixture lost about 10 mol of cystine per mol of BSA. This loss was not observed after hydrolysis of irradiated alone or non-irradiated BSA. Irradiation of cystine with [¹⁴C]sulfanilamide in HC1 solutions produced the same compound as was found after hydrolysis of irradiated BSA/sulfanilamide mixtures. This was demonstrated by autoradiography of paper chromatograms. The same compound was also detected in an irradiated [³⁵S]cystine non-labelled sulfanilamide mixture. It was not detected, however, after irradiation of a mixture of all amino acids of BSA excluding cystine. These data suggest that cystine residues are involved in the photobinding of sulfanilamide (or its photoproducts) to BSA.     

THYMIDINE UPTAKE, INCORPORATION AND DNA POLYMERASE ACTIVITY IN MURINE BLADDER TUMOR CELL,MBT–2, EXPOSED TO UV ACTIVATED DIHEMATOPORPHYRIN ETHER

Abstract— Photodynamic therapy (PDT) is a new modality for treatment of malignancy. In this paper, we reported the effect of UV activated dihematoporphyrin ether (DHE) on [³H] thymidine uptake and DNA synthesis in murine bladder tumor cells,MBT–2. Exponentially growing cells were pretreated with 0.05–5 μg/ml of DHE for 30 min in complete darkness prior to irradiation with 0.15-0.90 J/cm² of UV light (265 nm). The rates of thymidine uptake and DNA synthesis were suppressed in a DHE concentration and photic energy dependent manner. Double reciprocal analysis on the kinetics of the thymidine uptake and DNA synthesis indicated that the inhibition was non-competitive, i.e. decrease in both the apparent K^m value and maximum velocity in DHE plus UV light treated cells. The activities of DNA polymerase a and (3 were determined by [*H] dATP incorporation into DNA of permeabilizedMBT–2 cells. DNA polymerase a activity was approximately 60% of the control after 0.45 J/cm² of UV light exposure; a further inhibition of DNA polymerase a was observed when 0.5–5ng/W of DHE and UV photoradiation were combined. In contrast, a slight stimulation of DNA polymerase fJ was noted after a similar treatment. This study demonstrates that photodynamic therapy-induced suppression of DNA synthesis inMBT–2 cells is a complex process involving in reduction of thymidine transport as well as the perturbation of the enzymes involved in DNA synthesis.     

INTERACTION OF RESTORATION PROCESSES IN UV IRRADIATED ESCHERICHIA COLZ CELLS

Abstract— An attempt was performed to estimate survival and course of DNA synthesis in Escherichia coli B/r hcr' and hcr^- cells in relation to the amount of unexcised dimers.
In exponential growing hcr⁺ cells irradiated with 30 Jm^-2, dimers were almost completely excised and survival of cells was equal to about 3%. In the hcr⁺ cells prestarved for amino acid and thymine and irradiated by the same fluence, survival of cells was almost equal while two thirds of dimers remained unexcised and could be detected in the hybrid DNA consisting of parental and daughter chains. In exponentially growing hcr^+- cells irradiated with 20Jm^-, the same amount of dimers was produced which remained unexcised in the prestarved hcr⁺ cells. However, their survival was equal to about 0.02%.
Despite the great differences in dimer contents, about one third of DNA was replicated after UV in both exponentially growing and prestarved hcr+ cells producing well defined HL-hybrid peak, and the newly synthesized DNA was normal-sized. In hcr⁺ cells which contained approximately the same amount of dimers as in hcr⁺ prestarved cells, the amount of replicated DNA was too low to form a detectable density labelled hybrid peak, and the newly synthesized DNA was in short pieces.
Thus, when hcr⁺ and hcr^+- cells contain the same number of residual dimers, they have different levels of tolerance to these dimers.     

LONG WAVELENGTH UV RADIATION AFFECTS CHEMILUMINESCENCE OF HUMAN POLYMORPHONUCLEAR LEUCOCYTES

Abstract— Luminol-enhanced chemiluminescence in suspensions of human polymorphonuclear leucocytes stimulated with the chemotactic oligopeptide formyl-methionyl-leucyl-phenylalanine was increased by exposure of the cells to long wavelength UV radiation (mainly320–400 nm). Leucocytes treated with 0.3 × 10⁴ J m^-2 of UV responded with doubled peak values, and 4 × 10⁴ J m^-2 lead to a five-fold increase in peak chemiluminescence, as compared with non-exposed cells. Supernatants isolated from irradiated leucocytes contained increased amounts of both myeloperoxidase and lactate dehydrogenase and showed higher chemiluminescence values, when compared with supernatants from sham-irradiated cells. The results suggest that leucocyte degranulation contributes to the inflammatory properties of long wavelength UV.     

PHOTOCHEMICAL ALTERATIONS IN DNA REVEALED BY DNA-BASED LIQUID CRYSTALS

Abstract The preparations of chicken erythrocyte linear double-stranded DNA and superhelical plasmid pBR322 DNA were irradiated by continuous low-intensity UV radiation (I = 25-50 W/m², λ= 254 nm) as well as by highintensity picosecond laser UV radiation (I = 10¹¹-10¹³ W/m², λ= 266 nm). The effect of DNA secondary structure alterations on the formation of liquid-crystalline dispersions from UV-irradiated DNA preparations was studied. It was shown that in the case of linear DNA, watching the disappearance of abnormal optical activity characteristic for cholesteric liquid crystal we managed to detect the presence of photochemical alterations in DNA irradiated by low-intensity UV radiation at an absorbed energy of more than 20 quanta per nucleotide. In the case of superhelical DNA using enzyme treatment of liquid-crystalline dispersions and monitoring the appearance of abnormal optical activity, we detected the presence of photochemical alterations in DNA molecules after low-intensity UV irradiation at an absorbed energy of less than 4 quanta per nucleotide. Under the latter approach using picosecond UV laser irradiation at three different light intensities we were able to distinguish the different mechanisms of fine alterations in DNA secondary structure at an absorbed energy value of about 3 quanta per nucleotide.     

SKIN DAMAGE IN ADULT AMPHIBIANS AFTER CHRONIC EXPOSURE TO ULTRAVIOLET RADIATION

Abstract— The effects of repeated UV exposure on the skin of the European crested newt, Triturus cristatus carnifex , have been investigated. The animals were irradiated 3 times per week with a Westing-house FS40T12 fluorescent sun lamp (wavelength spectrum 275–350 nm). Two groups of animals received the same total fluence of 1.3 × 10⁵ J/m² in single fluences of either 1570 J/m² (group A) or 9430 J/m² (group C), and one group received a total fluence of 2.6 × 10⁵ J/m² in single fluences of 4710 J/m² (group B). All the animals were killed 7 months after the first UV exposure, but at different intervals after the last exposure. Striking epidermal hyperplasia was found in the newts irradiated at the lower fluence rate (group A). In the animals given the higher total fluence (group B), the most prominent skin changes were dermal fibrosis and irregular thinning and thickening of the epidermis. No significant skin changes were found in group C., in which if there had been UV lesions, they had been repaired during the 5 month interval between the last irradiation and the killing of the animals. No skin tumors developed in any experimental group.     

QUANTITATION OF PYRIMIDINE DIMERS BY IMMUNOSLOT BLOT FOLLOWING SUBLETHAL UV-IRRADIATION OF HUMAN CELLS

An immunoslot blot assay was developed to detect pyrimidine dimers induced in DNA by sublethal doses of UV (254 nm) radiation. Using this assay, one dimer could be detected in 10 megabase DNA using 200 ng or 0.5 megabase DNA using 20 ng irradiated DNA. The level of detection, as measured by dimer specific antibody binding, was proportional to the dose of UV and amount of irradiated DNA used. The repair of pyrimidine dimers was measured in human skin fibroblastic cells in culture following exposure to 0.5 to 5 J m^-2 of 254 nm UV radiation. The half-life of repair was approximately 24, 7 and 6 h in cells exposed to 0.5, 2 and 5 J m^-2 UV radiation, respectively. This immunological approach utilizing irradiated DNA immobilized to nitrocellulose should allow the direct quantitation of dimers following very low levels of irradiation in small biological samples and isolated gene fragments.     

THE EFFECTS OF FAR ULTRAVIOLET RADIATION ON RESPIRATION AND CATION ACCUMULATION BY ISOLATED MITOCHONDRIA OF PHASEOLUS VULGARIS

Abstract. The respiration rates and respiratory control ratios of isolated bean mitochondria have been measured following exposure to 0, 150, 300 and 900 J/m² of far UV radiation (190–300 nm) from a mercury vapour light source with 90% total radiant intensity at 254 nm. Loss of respiratory control occurred at 150 J/m² and inhibition of respiration was significant at the highest exposure dosage. The uptake of both ⁴⁵Ca and ⁸⁵Sr have been measured following a 10min incubation of isolated mitochondria with 2 m M cation. Significant decreases in cation accumulation were observed following exposure to 900 J/m². The effect seemed to be associated with loss of active transport of the ions as a result of respiratory uncoupling or reduced electron transport. There was no significant effect of storage on respiration or ion transport nor was there any indirect effect of irradiated suspending medium on mitochondria.     

PHOTOSENSITIZATION OF HUMAN DIPLOID CELL CULTURES BY INTRACELLULAR FLAVINS AND PROTECTION BY ANTIOXIDANTS

Abstract— The damaging effects of near ultraviolet and visible light on WI-38 human diploid lung fibroblasts were investigated. WI-38 cells in culture were killed by light doses ranging from 2 to 10 × 10³ W/m² h. There was an inverse correlation between culture age, i.e. population doubling level and photosensitivity. However, this effect could not be related to capacity for DNA synthesis and cell division.
Flavins were clearly implicated as endogenous photosensitizers, and antioxidants such as d, l -α-tocopherol (vitamin E), BHT and ascorbic acid were found to afford the cells protection from light damage. Furthermore, products of lipid peroxidation could be detected in cell homogenates irradiated in the presence of ribofiavin.     

THE EFFECTS OF HIGH-INTENSITY UV-RADIATION ON NUCLEIC ACIDS AND THEIR COMPONENTS—I. THYMINE

Abstract— The set of final products of thymine conversion induced by high-intensity UV irradiation (λ= 266nm, intensity 10²⁴-5 × 10²⁹ photons·s⁻¹·m⁻², pulse duration 10ns) of the dilute aqueous solution to the first approximation is similar to that formed with ionizing irradiation (γ-irradiation of aqueous solution or autoradiolysis of a solid 2-[¹⁴C]-thymine). The data obtained suggest that high-intensity UV-induced photochemical conversion of thymine involves photoionization and/or photodissociation. These processes pass through the higher excited state(s) populated as a result of the second photon absorption by excited (most probably in the T₁ triplet state) thymine molecules.     

HERPES SIMPLEX VIRUS PRODUCES LARGER PLAQUES WHEN ASSAYED ON ULTRAVIOLET IRRADIATED CV1 CELLS

Plaque development for either untreated or UV treated irradiated Herpes simplex virus Type 1 is faster when assayed on UV irradiated CV1 cells. This Large Plaque Effect only occurs if a minimum delay of 12h between cell irradiation and viral inoculation is allowed. Shorter delays give plaques that are smaller than controls (unirradiated virus-unirradiated cells). The effect is maximal for a 48-h delay and remains unchanged for delays as long as 84h. The effect is greatest for cell exposures of 10J m^-2.     

SUNLIGHT-INDUCED PYRIMIDINE DIMERS IN HUMAN SKIN FIBROBLASTS IN COMPARISON WITH DIMERIZATION AFTER ARTIFICIAL UV-IRRADIATION

Abstract— We compared artificial UV-sources such as germicidal- or sun-lamps with summer noon sunlight in Switzerland for selective efficiency in the induction of pyrimidine dimers in the DNA of human cells. In our studies we determined cytosine-thymine (C-T) as well as thymine-thymine dimer densities (T-T) by high pressure liquid chromatography in cultures of xeroderma pigmentosum cells of group A. Using far-UV light from a germicidal lamp, we found a rate of formation per Jirr² for C-T and T-T of 0.0019% and 0.0024%, respectively, of the total thymine radioactivity in hydrolysates of [³H]thymidine labeled cells. After irradiation with an unfiltered sunlamp we measured a rate of formation of 0.0005% per Jm-² both for C-T and T-T, based on the sunlamp emission of 297 ±4 nm wavelength. Utilization of Kodacel- or Mylar-filters lowered the rate of dimerization by a factor of 2 and 60, respectively. One hour of irradiation with noon summer sunlight induced 0.038 ±0.012% C-T and 0.036 ±0.011% T-T. This extent of dimer production is equivalent to 15 Jm^-2 of far-UV exposure at 254 nm.