NON-DIMER DNA DAMAGE IN CHINESE HAMSTER V-79 CELLS EXPOSED TO ULTRAVIOLET-B LIGHT

To understand and characterize non-dimer DNA damage and cytotoxicity induced by ultraviolet-B light (UV-B, 290-320 nm), an alkaline elution technique for analysis of DNA damage was used on Chinese hamster V-79 cells. Ultraviolet-B exposure produced a dose-dependent induction of DNA single strand breaks and DNA-protein crosslinks; however, there was an absence of DNA-DNA interstrand crosslinks. Neither of these types of DNA damage were repaired within a a 24 h incubation of the cells following a single UV-B exposure; rather the damage increased. Using a colony forming assay, we found that UV-B exposure resulted in an increase of cytotoxicity in a dose-dependent fashion. In addition, UV-B exposure inhibited DNA and RNA synthesis. The role of non-dimer DNA damage in the cytotoxicity induced by UV-B is discussed.     

p-AMINOBENZOIC ACID-SUNLAMP SENSITIZATION OF PYRIMIDINE DIMER FORMATION AND TRANSFORMATION IN HUMAN CELLS

Abstract In the presence of sunlamp radiation, p -aminobenzoic acid sensitizes pyrimidine dimer formation in the DNA of human skin fibroblasts. It also sensitizes the sunlamp-induced transformation of such cells to anchorage-independent growth.     

COMPARATIVE ACTION SPECTRA FOR PYRIMIDINE DIMER FORMATION IN CLOUDMAN S91 MOUSE MELANOMA and EMT6 MOUSE MAMMARY CARCINOMA CELLS

Abstract— Pyrimidine dimer formation in melanotic mouse melanoma cells, Cloudman S91H-. and iii mouse mammary carcinoma cells, EMT6, was compared as a function of wavelength by irradiating equal numbers of cells from the two cell lines simultaneously. More dimers were formed in EMT6 than in S91H– by light of wavelengths less than 289 nm, while light of higher wavelengths caused equivalent dimer formation, as measured by the Micrococcus luteus UV-endonuclease assay. The cells of S91 flare lightly melanotic, yet shielding at lower wavelengths is considerable. It is speculated that melanin pigmentation arose by selection during an evolutionary period when UV-C light reaching the earth's surface was significantly greater than it is today.     

PYRIMIDINE DIMER FORMATION IN HUMAN SKIN

Cyclobutyl pyrimidine dimers are major photoproducts formed upon irradiation of DNA with ultraviolet light. We have developed a method for detecting as few as one pyrimidine dimer per million bases in about 50 ng of non-radioactive DNA, and have used this method to quantitate dimer yields in human skin DNA exposed in situ to UV. We found that UVA radiation (320–400 nm) produces detectable levels of dimers in the DNA of human skin. We also measured UVB-induced dimer yields in skin of individuals of differing sun sensitivity and found higher yields in individuals with higher UVB minimal erythema doses and greater sun sensitivity. These approaches should provide important information on damage induced in human skin upon exposure to natural or artificial sources of ultraviolet radiation.     

RECOVERY OF SUBCHROMOSOMAL DNA SYNTHESIS IN SYNCHRONOUS V-79 CHINESE HAMSTER CELLS AFTER ULTRAVIOLET LIGHT EXPOSURE

Abstract— Previous work obtained from Chinese hamster V-79 cells indicated that, immediately following exposure, UV-induced lesions acted as blocks to elongation of nascent strands, but gradually lost that ability over a 10 h period after exposure to 10 J/m². The work reported herein attempted to examine possible cell cycle mediated alterations in the recovery of DNA synthesis. Kinetic incorporation of radiolabeled thymidine studies indicated that there may have been a more rapid recovery of DNA synthesis in cells irradiated in G₁ or G₂ vs cells irradiated in S phase. DNA fiber autoradiograms prepared from synchronous cells indicated that after irradiation in any phase of the cell cycle, the length of newly synthesized DNA was equal to control lengths 1 h after exposure to 5.0 J/m² (or 1 h after entering S phase for cells irradiated in G₁ or G₂). This observed recovery was not solely due to an excision process. No cell cycle mediated difference in the number of dimers induced or removed as a function of cell cycle position was observed. These results appear to be consistent with a continuum of effects, with initiation effects dominating the response at low fluences, gapped synthesis at intermediate fluences and elongation inhibition at high fluences. The fluences at which each event dominates may be cell-line specific.     

PYRIMIDINE DIMER FORMATION IN ULTRAVIOLET IRRADIATED TMV-RNA

Abstract— The formation of pyrimidine dimers on ultraviolet irradiation of TMV-RNA in water is demonstrated in the region from 254 nm to 302 nm. No dimer is present in either unirradiated E. coli ribosomal RNA or TMV-RNA. Dimer formation was also examined in TMV-RNA irradiated in the presence of 5times10^-6 M proflavin, in high salt, on dry ice, and in 90% methanol. No correlation of pyrimidine dimers with any biologically defined lesion is presently possible and it is suggested that dimer may not be involved in the inactivation of this material.     

BIOLOGICAL ACTIVITIES OF PHTHALOCYANINES-XL PHOTOTOXICITY OF SULFONATED ALUMINUM NAPHTHALOCYANINES TOWARDS V-79 CHINESE HAMSTER CELLS

The phototoxicity of sulfonated aluminum naphthalocyanines towards V-79 Chinese hamster cells is investigated. The disulfonated naphthalocyanine exhibits similar photostability, but better cell penetrating properties than the tetrasulfonated dyes. The capacity of the naphthalocyanines to generate singlet oxygen is comparable to that of the corresponding phthalocyanines. However, in contrast to the phthalocyanine dyes, the sulfonated aluminum naphthalocyanines show very little phototoxicity towards the V-79 cells, suggesting close association with non-vital cell constituents or extensive formation of photoinactive adducts and aggregates.     

THE FATE OF PYRIMIDINE DIMERS IN THE DNA OF ULTRAVIOLET-IRRADIATED CHINESE HAMSTER CELLS

Abstract —As an aid to understanding the relationship between dimer repair and cellular recovery, we have studied dimer removal and replication of dimer-containing DNA in Chinese hamster ovary (CHO) cells irradiated with ultraviolet light (254 nm). These investigations demonstrated that (1) dimers are not excised as polynucleotides of less than 500,000 mol. wt, (2) fractionation of the ultraviolet dose does not enhance dimer excision, (3) dimer-containing DNA is replicated in ultraviolet-irradiated CHO cells, and (4) the dimers are conserved in the replicated DNA. These findings support the proposed mechanism of bypass of photoproducts during DNA replication in mammalian cells.     

EFFECTIVE PHOTODYNAMIC ACTION BY RHODAMINE 123 LEADING TO PHOTOSENSITIZED KILLING OF CHINESE HAMSTER OVARY CELLS IN TISSUE CULTURE AND A PROPOSED MECHANISM

The effectiveness of rhodamine 123 (R123) as a photosensitizer of cell killing is relatively low and correlates with its inefficient production of singlet oxygen. The known selective retention of R123 in the mitochondria of epithelially derived carcinoma cells, however, is a selective feature that could lead to a more useful therapeutic ratio if photosensitizing effectiveness could be increased. Chinese hamster ovary (CHO) cells in tissue culture were therefore exposed to R123 shortly before and during illumination under conditions controlled for oxygen concentration and temperature. Effective photosensitization of cell killing, as judged by colony formation, was produced by 95% but not by 19% O₂ during illumination of cells at 5d?C or 37d?C, and this was additionally enhanced at the sublethal temperature of 42d?C. Two CHO cell lines were examined; one line, CHO-AA8, was proficient in the repair of DNA damage and the parent to the second line, CHO-EM9, that was deficient in the repair of DNA strand breaks. Cells of both lines incorporated R123 to a similar degree and were similarly photosensitized by the presence of igh oxygen concentration. Furthermore, plasma membrane damage as judged by teh exclusion of trypan blue was not observed immediately after illumination in the presence of R123, but was seen in the presence of meso-tetra-(4-sulfonatophenyl)-porphine (TPPS₄). The extent of damage to the plasma membrane by TPPS₄ was greater in the presence of 95% compared to 19% O₂ during illumination. Photodynamic action at the level of teh plasma membrane appears to contribute to photosensitization by TPPS₄ but not by R123 soon after exposure of cells to these sensitizers. It is hypothesized that photodynamic action by R123 is the primary mechanism causing the observed photosensitization of cell killing, and that mitochondria are teh site of photosensitized damage responsible for this killing.     

THE PHOTODYNAMIC EFFECTS ONV–79 CHINESE HAMSTER CELLS

Abstract— Holding of acriflavine sensitizedV–79 cells in growth medium before visible light exposure decreases inactivation by visible light. The decrease depended upon the period of holding, indicating that there was release of cellular dye during this period. Exposures to visible light were done in two conditions: (a) with no dye in the medium during visible light exposure (washed) and (b) with dye in the medium during exposure (unwashed). Caffeine was found to slightly increase the sensitivity of the cells to visible light in the washed condition, whereas, in the unwashed condition no such effect was observed. Interaction studies with far UV did not reveal any correlation between photodynamic damage and UV damage. Visible light exposure of acriflavine sensitized cells was found to be mutagenic, as studied from the induction of 8-azaguanine resistant mutants. Inhibition of singlet oxygen production by sodium azide suppressed the induction of mutants. All these, taken together, have been discussed with respect to the relative importance of DNA and non-DNA damage in the photodynamic action of acriflavine.     

ENHANCED KILLING OF CHINESE HAMSTER CELLS FOLLOWING COMBINED EXPOSURE TO 'SUNLIGHT' AND X-RAYS*

Abstract— Enhanced cell killing due to combined exposure to sunlight-like near-UV light (Westinghouse Sun Lamps, FS20) and X-rays, indicative of damage interaction, is observed at all stages of the cell cycle. The greatest interaction is observed in the middle of the DNA synthetic phase. At equal survival, 'sunlight' damage is only partly additive to X-ray damage, and vice versa , whereas in earlier studies we found that far-UV light (254 nm) produces damage completely additive to X-ray damage. Loss of damage interaction between radiations is more rapid after a first dose of X-rays than after a first dose of 'sunlight'.     

AN INSTRUMENT FOR ACTION SPECTRUM STUDIES IN DERMATOLOGY

Abstract— An instrument designed for convenient determination of action spectra for cutaneous photo-responses in man and experimental animals is described. Light from 450 W Xe lamp is dispersed by a concave holographic grating. The spectrum from 244 to 616 nm is projected as a planar strip (2 times 17 cm) intercepted by a grid with 31 ports. The bandwidth at each port is 12 nm and the size of the port increases from about 4 × 4 mm to 6 × 8 mm from the low to high wavelength limits, respectively. Typical fluence rates in quanta m^-2 s^-1 are 4.0 times 10¹⁹ at 298 nm, 16 times 10¹⁹ at 394nm and 22 times 10¹⁹ at 538 nm. Responses due to delayed erythema in normal skin and to musk ambrette photoallergy and solar urticaria in patients skin have been elicited with this instrument.     

ANOMALOUS DOSE-RESPONSE CHARACTERISTICS INDUCED BY CAFFEINE IN ULTRAVIOLET-IRRADIATED V79–79 CHINESE HAMSTER CELLS

Abstract— Cultured Chinese hamster cell line V79–79 exhibits an increase in survival with increasing UV fluence after a sharp decrease when exposed to 2.5 mM caffeine for 44 h after far-UV irradiation resulting in an anomalous maximum in the survival curve. No survival maximum is evident when either 0 or 1 mM caffeine is administered under the same conditions. The UV survival curve for 2.5 mM caffeine crosses the corresponding 1 mM curve and apparently becomes asymptotic to the OmM curve as UV fluence is increased. Chinese hamster cell lines V79–753B (related to V79–79 by derivation from the same parental line) and M3–1F3 (unrelated) exhibit only potentiation of post-UV lethality by the same concentration of caffeine and have no caffeine-induced anomalies in their survival curves. Xanthine. used alone or in combination with caffeine, only potentiated a slight amount of lethality and appears not to be a major causative factor of the anomaly.     

ACTION SPECTRUM (620–640 nm) FOR HEMATOPORPHYRIN DERIVATIVE INDUCED CELL KILLING

Abstract— Monochromatic red light generated by a tunable dye laser is currently being utilized for the treatment of solid tumors with hematoporphyrin derivative (HpD) photoradiation therapy (PRT). Experiments were performed using mammalian cells to determine the most efficient wavelength of red light (620 to 640 nm range) for HpD induced cellular photoinactivation. Decrease in the clonogenic potential of Chinese hamster ovary (CHO) cells was examined following both short (I h) and extended (12 h) HpD incubation times. Maximal photosensitization was observed with wavelengths ranging from 630 to 632.5 nm and the action spectra for cell killing matched the absorption spectra for HpD bound to cells. Similar observations were obtained following both short and extended HpD-cell incubation times. The potential relevance of these results as they relate to clinical HpD PRT are discussed.     

DETECTION OF PYRIMIDINE DIMERS AND MONOADDUCTSINDUCED BY 7-METHYLPYRIDO(3,4-c) PSORALEN AND UVA IN CHINESE HAMSTER V79 CELLS BY ENZYMATIC CLEAVAGE AND HIGH-PRESSURE LIQUID CHROMATOGRAPHY

Abstract The photochemotherapeutically active psoralen derivative 7-methylpyrido(3,4-c) psoralen (MePyPs) has been recently shown to be able to photoinduce monoadducts of the C₄-cycloaddition type as well as pyrimidine dimers in DNA in vitro . In the present study, we report on the induction of these two types of photolesions in mammalian cells in culture. The MePyPs photocycloadducts were quantified in V79 Chinese hamster cells after treatment with MePyPs plus UVA following enzymatic hydrolysis of the DNA by DNase I, S1 nuclease and acidic phosphatase treatments. Concomitantly induced pyrimidine dimers were determined by two methods, high-pressure liquid chromatography and alkaline gel electrophoresis after dimer-specific endonucleolytic cleavage. The results show that, in Chinese hamster cells treated with MePyPs plus UVA, the yield of pyrimidine dimers is approximately 5-10% that of MePyPs-DNA photocycloadducts. Because psoralen monoadditions to DNA alone are generally not considered as being very phototoxic, a synergistic interaction of monoadditions with pyrimidine dimers may be expected to occur in order to explain the high photobiological effectiveness of this psoralen derivative.     

ACTION SPECTRA FOR KILLING NON-DIVIDING NORMAL HUMAN AND XERODERMA PIGMENTOSUM CELLS

Abstract— Non-dividing human cells degenerate and eventually detach from a culture vessel surface when exposed to UV light. Action spectra for this kind of cell inactivation were determined using eight monochromatic wavelengths from 240 to 313 nm and both a normal DNA excision-repair-proficient strain and a repair-deficient Xeroderma pigmentosum (XP12BE) strain. The action spectra for both strains have similar shapes with a broad peak between 254 and 280 nm followed by a steep decline at wavelengths greater than 280 nm. The relative action spectra are similar to those for inactivation of reproductive capacity and pyrimidine dimer formation in rodent cells suggesting that the critical target and critical damage for inactivation of non-dividing human cells is DNA and damage to DNA, respectively. Normal repair-proficient cells are 5–7 times more resistant at all wavelengths, based on a comparison of D_o values, than repair-deficient XP12BE cells, supporting the conclusion that the inactivating damage at all wavelengths is to DNA.     

BIOLOGICAL ACTIVITIES OF PHTHALOCYANINES–VII. PHOTOINACTIVATION OF V-79 CHINESE HAMSTER CELLS BY SELECTIVELY SULFONATED GALLIUM PHTHALOCYANINES

Abstract Gallium chloride phthalocyanines sulfonated to different degrees were tested for their ability to inactivate V-79 Chinese hamster cells in the presence of red light. The mono- and disulfonated compounds were the most active whereas the tri- and tetrasulfonated complexes were completely void of photoactivity. In addition, large variations in photoactivity were observed among the four isomeric disulfonated derivatives with the most hydrophobic isomer exhibiting the highest photoactivity. Prolonged exposure to the disulfonated complex resulted in increased photosensitization. Complexing the dye with Al instead of Ga resulted in a slightly increased photosensitizing effect.     

INDUCTION OF DNA-PROTEIN CROSS-LINKS IN CHINESE HAMSTER CELLS BY THE PHOTODYNAMIC ACTION OF CHLOROALUMINUM PHTHALOCYANINE AND VISIBLE LIGHT

Abstract— Chloroaluminum phthalocyanine (CAPC) is an efficient photosensitizer for the inactivation of Chinese hamster V79 cells. In order to investigate possible molecular mechanisms in the photo-dynamic action of CAPC and visible light, the induction and repair rate of two classes of DNA lesions have been determined, i.e. DNA single-strand breaks and DNA-protein cross-links. In cells pretreated with 1 μ.M CAPC, a fluence of 12 kJ/m² of red light (>600 nm) kills approximately 50% of the cells and induces 3 to 3.5 Gy-equivalents of single-strand breaks. The repair of these breaks was slower than the repair of single-strand breaks induced by -irradiation. The photodynamic action of CAPC also induces a large number of DNA-protein cross-links which, in contrast to -radiation-induced DNA-protein cross-links, do not appear to be repaired during 4 h of post-treatment incubation in fresh medium. These studies suggest that DNA may be an important target for the cytotoxicity of CAPC + red light.     

ACTION SPECTRUM FOR PHOTOREACTIVATION OF ULTRAVIOLET-IRRADIATED MARSUPIAL CELLS IN TISSUE CULTURE

Abstract— An action spectrum has been determined for photoreactivation of the PtK-2 mammalian cell line of Potorous tridactylus . Maximum effectiveness occurs around 366 nm, but appreciable photo-reactivation occurs at wavelengths as long as 546 nm.     

PROTECTION BY THE FLUORIDE ION AGAINST PHTHALOCYANINE-INDUCED PHOTODYNAMIC KILLING OF CHINESE HAMSTER CELLS

When a dilute F- solution was added to a culture of Chinese hamster cells that had been preincubated with an aluminium phthalocyanine sensitizer derived from AlPcCl, the photosensitivity of the cells was markedly reduced compared to control cells not treated with F-. Under the same treatment conditions, the reduction in [3H]thymidine incorporation into cellular DNA caused by light and this sensitizer and the production of DNA-protein crosslinks caused by light and this sensitizer were also inhibited by F-. In contrast, the killing of Chinese hamster cells, the reduction of thymidine incorporation by the cells, and the production of DNA-protein crosslinks in the cells caused by the combination of light and either Photofrin II or the silicon phthalocyanine HOSiPcOSi(CH3)2(CH2)3-N(CH3)2 were not inhibited by F-. We conclude that the aluminium phthalocyanine sensitizer used is largely or completely AlPc(OH)(H2O), that it is converted to a fluoro complex by F-, and that this compound probably is a less efficient generator of photochemical damage at a critical cellular target(s) than is AlPc(OH)(H2O). The inhibition of thymidine incorporation and DNA-protein crosslink formation indicates that the effects of F- can be expressed at intracellular sites. It is further concluded that the silicon phthalocyanine sensitizer and Photofrin II do not interact significantly with F-.