EXCISION REPAIR OF UVR-INDUCED PYRIMIDINE DIMERS IN CORNEAL DNA

Abstract— We measured excision repair of ultraviolet radiation (UVR)-induced pyrimidine dimers in DNA of the corneal epithelium of the marsupial, Monodelphis domestica , using damage-specific nucleases from Micrococcus luteus in conjunction with agarose gel electrophoresis. We observed that 100 J ^-2 of UVR from aFS–40 sunlamp(280–400 nm) induced an average of 2.2 ± 0.2 times 10^-2 endonuclease-sensitive sites per kilobase (ESS/kb) (pyrimidine dimers) and that ∼ 50% of the dimers were repaired within 12 h after exposure. We also determined that an exposure of 400 J m^-2 was needed to induce comparable numbers of pyrimidine dimers (2.5 times 10^-2) in the DNA of skin of M. domestica in vivo . In addition, we found that 50% of the dimers were also removed from the epidermal cells of M. domestica within 12 h after exposure. A dose of 100 J m^-2 was necessary to induce similar levels of pyrimidine dimers (2.0 ± 0.2 times 10^-2) in the DNA of the cultured marsupial cell line Pt K2 ( Potorous tridactylus ).     

THE CYTOTOXIC AND MUTAGENIC EFFECTS OF UVA RADIATION ON L5178Y MOUSE LYMPHOMA CELLS

Abstract— A broad-band UVA source that emits primarily350–400 nm radiation and no measurable radiation below 340 nm was used to test toxicity and mutagenicity at the thymidine kinase locus in L5178Y, subclone 3.7.2C (TK⁺/^-) mouse lymphoma cells. Cells were exposed to a fluence of 0 to 80 × 10⁴ J/m². The relationship between UVA fluence and survival was found to have a shoulder region followed by an exponential decrease in survival at higher fluence levels. An exposure-dependent increase in mutation was observed with increasing fluences from 0 to about 60 × 10⁴ J/m². An approximately 3- to 4-fold increase in mutations (trifluorothymidine resistance) over unexposed, control cells was seen at a fluence that resulted in 90% cell killing. We conclude that UVA radiation is a mutagen in the L5178Y mouse lymphoma cells used in this study.     

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.     

PHOTOREACTIVATION OF ULTRAVIOLET LIGHT-INDUCED DAMAGE IN CULTURED FISH CELLS AS REVEALED BY INCREASED COLONY FORMING ABILITY AND DECREASED CONTENT OF PYRIMIDINE DIMERS

Abstract— Cultured cells derived from a goldfish were irradiated with 254nm ultraviolet light. Cell survival and splitting of pyrimidine dimers after photoreactivation treatment with white fluorescent lamps were examined by colony forming ability and by a direct dimer assay, respectively. When UV-irradiated (5 J/m²) cells were illuminated by photoreactivating light, cell survival was enhanced up to a factor of 9 (40min) followed by a decline after prolonged exposures. Exposure of UV-irradiated (15 J/m²) cells to radiation from white fluorescent lamps reduced the amounts of thymine-containing dimers in a photoreactivating fluence dependent manner, up to about 60% reduction at 120 min exposure. Keeping UV-irradiated cells in the dark for up to 120min did not affect either cell survival or the amount of pyrimidine dimers in DNA, indicating that there were not detectable levels of a dark-repair system in the cells under our conditions. Correlation between photoreactivation of colony forming ability and photoreactivation of the pyrimidine dimers was demonstrated, at least at relatively low fluences of photoreactivating light.     

NEAR-UV INDUCTION OF SISTER CHROMATID EXCHANGES UNDER AEROBIC AND ANAEROBIC CONDITIONS

Abstract— The induction of sister chromatid exchanges (SCE) and cell sensitivity in mouse myeloma cells (66.2 subclone of MPC11) by irradiation with monochromatic near-UV (365 nm) light were studied under aerobic and anaerobic conditions. Sister chromatid exchanges were studied using the fluorescence-plus-Giemsa technique, and sensitivity was determined by the ability of irradiated and nonirradiated control cells to form colonies in soft agar. Cells were found to be 16 times more sensitive to near-UV light under aerobic exposure, producing an F₃₇ value of 7 × 10⁴ J/m² compared to the F₃₇ value of 11.5 × 10⁵ J/m² under anaerobic conditions. The induction of SCE was also 12 times more efficient for aerobic irradiation than for anaerobic irradiation. The data suggest that the SCE-inducing potential of DNA lesions differs when near-UV irradiation is performed in the presence or absence of air. In addition, the DNA lesions responsible for lethality and also those lesions leading to SCE induction may differ under the two irradiation conditions.     

POSTREPLICATION REPAIR IN AN EXCISION-DEFECTIVE MUTANT OF ESCHERICHIA COLI: ULTRAVIOLET LIGHT-INDUCED INCORPORATION OF BROMODEOXYURIDINE INTO PARENTAL DNA*

Abstract— Ultraviolet (UV) light-induced incorporation of bromodeoxyuridine (BrdUrd) into parental DNA of an excision-defective mutant of Escherichia coli has been observed by selective photolysis of bromouracil (BrUra)-containing regions in the parental DNA. It appears that the BrUra-containing regions occur only in that DNA which has served as a template for normal semiconservative replication. After an exposure at 254 nm which results in one pyrimidine dimer per 45times 10⁶ daltons, incubation in BrdUrd resulted in BrUra–containing regions ˜ 1.5 times 10⁴ nucleotides in length at intervals of ˜ 55 times 10⁶ daltons in the parental DNA. Thus approximately one BrUra-containing region has occurred for every 1.2 pyrimidine dimers in the parental DNA. The observed incorporation of BrdUrd is interpreted in terms of a proposed model for postreplication repair in which genetic exchanges produce single-strand gaps in the parental DNA.     

MECHANISM OF HIGH POWER PICOSECOND LASER UV INACTIVATION OF VIRUSES AND BACTERIAL PLASMIDS

Abstract— The mechanism of inactivating action of high-power picosecond laser UV radiation (λ= 266 nm) on the λ and φX174 bacteriophages and the pBR 322 plasmid has been studied. It has been shown that at UV radiation intensities from 10¹¹ to 10¹³ W/m², inactivation of viruses and bacterial plasmids occurs mainly on account of single-strand breaks in the DNA chain unlike the case of less powerful UV radiation where the inactivation is associated with the formation of pyrimidine dimers.     

THE RATE OF REMOVAL OF SUNLIGHT-INDUCED PYRIMIDINE DIMERS FROM THE DNA OF CULTURED HUMAN DIPLOID FIBROBLASTS

Abstract The rate of excision of sunlight-induced pyrimidine dimers in DNA of exposed human cells was determined. Two normal excision repair-proficient human diploid fibroblast strains (WS-1 and KD) and a repair-deficient strain (XP12BE, group A) maintained in a nondividing state were exposed to summer noon-time sunlight for times (5 and 20 min) that induced numbers of dimers equivalent to far UV (254 nm) exposures of 1 and 4 J/m². Pyrimidine dimers were quantified in extracted DNA using a U V-endonuclease-alkaline sedimentation assay. The excision rates of these dimers were similar to those observed for the excision of UV-induced pyrimidine dimers. No sunlight-induced inhibition or stimulation of DNA repair was observed in either strain at these low exposures.     

DETERMINATION OF CYTOSINE-CYTOSINE PHOTODIMERS IN THE DNA OF CLOUDMAN S91 MELANOMA CELLS USING HIGH PRESSURE LIQUID CHROMATOGRAPHY

Abstract
I measured the induction of cytosine-cytosine dimer (C-C) densities after UV-C (< 290 nm) and UV-B irradiation (290–320 nm) in the 2'-deoxy-[³H]cytidine labeled DNA of Cloudman S91 mouse melanoma cells using a new, sensitive high pressure liquid chromatography procedure. UV-B exposure resulted in 0.000034% C-C/J m^-2 of the total cytosine radioactivity which is 10 times less than the rate during UV-C irradiation. Previous work with these melanoma cells showed a 4-fold lower rate of induction of thymine-containing pyrimidine dimers by UV-B than UV-C light (Niggli Photochem. Photobiol . 52 , 519–524, 1990). Based on these results, the calculated ratios for the pyrimidine dimer subspecies showed no significant difference following UV-C and UV-B exposure. However, UV-C and UV-B light induce 10–20 times more thymine-containing pyrimidine dimers than C-C in the DNA of S91 cells.     

SATURATION OF DNA REPAIR IN MAMMALIAN CELLS*

Abstract—Excision repair seems to reach a plateau in normal human cells at a 254 nm dose near 20J/m². We measured excision repair in normal human fibroblasts up to 80J/m². The four techniques used (unscheduled DNA synthesis, photolysis of BrdUrd incorporated during repair, loss of sites sensitive to a UV endonuclease from Micrococcus luteus , and loss of pyrimidine dimers from DNA) showed little difference between the two doses. Moreover, the loss of endonuclease sites in 24 h following two 20J/m² doses separated by 24 h was similar to the loss observed following one dose. Hence, we concluded that the observed plateau in excision repair is real and does not represent some inhibitory process at high doses but a true saturation of one of the, rate limiting steps in repair.     

REPAIR OF PYRIMIDINE DIMERS IN ULTRAVIOLET-IRRADIATED CHLAM YDOMONAS

Abstract— A UV-specific endonuclease was used to monitor the presence of UV-induced pyrimidine dimers in the DNA of Chlamydomonas reinhardi . All of the dimers induced by 50 J/m² of 254 nm light are removed by a 2 h exposure to photoreactivating light. Nearly all of the dimers are removed by the wild-type strain of Chlamydomonas upon incubation for 24h in the dark. Two UV-sensitive mutants, UVS 1 and UVS 6, are deficient in removal of dimers in the dark. These results are interpreted to mean that Chlamydomonas has an excision-repair pathway for coping with UV-induced damage.     

THE FATE OF PYRIMIDINE DIMERS IN ULTRAVIOLET-IRRADIATED CHLAMYDOMONAS

Abstract— We have developed a chromatographic technique for the separation of ³²P-labeled pyrimidine nucleotide dimers of the form Py_pPy from ³²P-phosphate in enzymatic hydroly sates of ultraviolet-irradiated DNA. Application of this technique to ³²P-labeled Chlamydomonas reinhardii shows that ultraviolet irradiation of this organism induces pyrimidine dimers in both nuclear and chloroplast DNA. We have found no evidence that these dimers are excised from either DNA species after several hours incubation under non-photoreactivating conditions. A function has been derived to permit the pyrimidine-dimer content determined from radioactive-thymine-labeled cells to be conveniently compared to that obtained from ³²P-phosphate-labeled cells.     

RANDOM DISTRIBUTION OF HIGHLY REPETITIVE AND INTERMEDIATE FREQUENCY MOUSE L-929 CELL DNA SEQUENCES SYNTHESIZED AFTER UV LIGHT EXPOSURE

Abstract— The DNA precursor ³H-thymidine incorporation rate (dpm/pg DNA) in mouse L-929 cells decreases immediately after exposure to UV light. This decrease is initially dose dependent, but at exposures greater than 22.5 J/m² appears to be radio-resistant. This was not explained by measurements of uptake of ³H-thymidine into the acid soluble pool (dpm/pg DNA). The radio-resistant incorporation amounted to approximately 35% of the control rate. DNA reassociation ("C₀T") studies were performed with DNA labeled with ³H-thymidine immediately after exposure of L-929 cells with a dose of UV resulting in radio-resistant incorporation to determine whether this radio-resistant incorporation was occurring in sequences of a particular repetitious frequency. These studies, performed in the highly repetitive to intermediate range, showed that the radio-resistant incorporation was occurring in DNA of all classes of repetitious frequency. DNA synthesized at different times after UV exposure, during the period when post-replication repair can occur, was similarly labeled for short intervals and isolated. The DNA reassociation studies showed that this DNA synthesis was also of all classes of repetitious frequency.     

REC A +-DEPENDENT SYNERGISM BETWEEN 365 NM AND IONIZING RADIATION IN LOG-PHASE ESCHERICHIA COLI: A MODEL FOR OXYGEN-DEPENDENT NEAR-UV INACTIVATION BY DISRUPTION OF DNA REPAIR

Abstract —The oxygen dependence of 365 nm inactivation of colony-forming ability of Escherichia coli has been investigated in two series of DNA repair-deficient K12 mutants grown to mid-exponential phase. All strains except a uvr A rec A double mutant are more sensitive to inactivation under O₂ and show a lower threshold dose. The inactivation of photoreactivating enzyme in a crude cell extract and DNA repair disruption are both reduced when irradiation is carried out under nitrogen. The rec A gene-dependent synergism between 365 nm and ionising radiation is reversible if cells are incubated in full growth medium before ionising radiation treatment. In a wildtype strain, incubation for 2.5 h in full growth medium after 10⁶ J m^-2 365 nm radiation changes a sensitised response to a protection from ionising radiation. Protection is not seen at 1.5 times 10⁶ J m^-2. A tentative model for near UV lethality in logarithmic phase cells is suggested which proposes two classes of lesions. One requires oxygen for it's induction, is rapidly fixed as a lethal event as a result of repair disruption, and is primarily responsible for cell death after aerobic 365 nm irradiation. The other lesion, possibly pyrimidine dimers, may lead to cell death under anaerobic conditions.     

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.     

INTERACTION OF 8-METHOXYPSORALEN AND NEAR-UV LIGHT CAUSES MUTATION AND CYTOTOXICITY IN MAMMALIAN CELLS

Abstract The interaction of near-UV light and a photosensitizer, 8-methoxypsoralen (8-MOP), was studied in the Chinese hamster ovary cell/hypoxanthine-guanine phosphoribosyl transferase system; cell survival (cloning efficiency) and mutation induction (resistance to 6-thioguanine) were quantified. Exposure of cells to either 8-MOP up to 20 μg/m l (93 μ M ) or near–UV light up to 40000 J/m² had no effect on either survival or mutation frequency. Preincubation of cells with 8–MOP from 5 to 120 min prior to irradiation with various fluences did not affect cell survival or mutation frequency. Survival decreased and mutation frequency increased linearly when either the 8-MOP concentration or fluence was increased while the other factor was held as a constant. Mutation frequency appears to show reciprocity relative to the product of 8-MOP concentration times fluence of near–UV light [(μg/m l )·(J/m²)] throughout a range apparently limited by high cell lethality. The observed pooled data on mutation, f (x), as a function of (μg/m l )·(J/m²), x , fit a linear dose–response line, f (x) = (34.2 + 0.05 x ) × 10^-6. Cell survival, however, does not appear to exhibit such reciprocity.     

IMPAIRED REPAIR OF UVC-INDUCED DNA DAMAGE IN L5178Y-R CELLS: SEDIMENTATION STUDIES WITH THE USE OF 5''-BROMODEOXYURIDINE PHOTOLYSIS

Abstract Relative to their L5178Y-S counterparts, L5178Y-R cells have an impaired capacity to form patches in DNA after exposure to UVC radiation. The photolysis of 5'-bromodeoxyuridine (BrdUrd) incorporated into DNA was used to estimate the number of 'repair patches'formed in response to a 254 nm UV (UVC) exposure. L5178Y-S cells, typical of rodent cell lines, formed a small number of patches in exposed DNA (1-2 patches per 1 times 10⁸ dalton during a 6 h recovery after an exposure of 20 J/m²). In contrast, DNA extracted from L5178Y-R cells exposed to UVC and subsequently incubated with BrdUrd for 6 h showed no evidence of BrdUrd incorporation indicating no capacity to form sites of repair (fewer than 0.5 sites of BrdUrd incorporation per 1 times 10⁸ dalton). Moreover, in L5178Y-R cells high fluences of UVC caused an extensive DNA degradation. Such degradation was not observed in L5178Y-S cells during the 24-h post-exposure period. These results are consistent with the notion that L5178Y-R cells have a reduced capacity to repair DNA damage induced by UVC radiation.     

PHOTOINDUCTION OF PROTOPERITHECIA IN NEUROSPORA CRASSA BY BLUE LIGHT

Blue light induces the formation of Neurospora crassa protoperithecia.This photoinduction is completed in less than 24 h. Its threshold is about 4.2 J/m². Red light is ineffective. The Bunsen-Roscoe law is obeyed at the fluence of 12.6 J/m² for fluence rates from 5.25 × 10 ² to 1.05 W/m².     

EXCISION REPAIR OF PYRIMIDINE DIMERS IN MARSUPIAL CELLS

Monodelphis domestica was further characterized as a model for photobiological studies by measuring the excision repair capabilities of this mammal's cells both in vivo and in vitro. Excision repair capability of the established marsupial cell line, Pt K2 ( Potorous tridactylus ), was also determined. In animals held in the dark, we observed that ˜50% of the dimers were removed by 12 and 15 h after irradiation with 400 J m⁻² and 600 J m⁻², respectively, from an FS-40 sunlamp (280–400 nm). Cells from primary cultures of M. domestica excised ˜50% of the dimers by 24 h after irradiating with 50 J m⁻² and 36 h after exposure to 100 J m⁻² with no loss of dimers observed 24 h following a fluence of 300 J m⁻². Pt K2 cells were observed to have removed -50% of the dimers at -12 h after 50 J m⁻² with only -10% of the dimers removed at 24 h following 300 J m⁻². The observed loss of pyrimidine dimers from epidermal DNA of UV-irradiated animals and from fibroblasts in culture, held in the dark, suggests that these marsupial cells are capable of DNA excision repair.