Effects of 8-methoxypsoralen and ultraviolet light A on EGF receptor (HER-1) expression

Activation of psoralens by ultraviolet light irradiation at 308-400 nm (UVA) is used in the photochemical treatment of psoriasis. While the major effect of this activation is the formation of DNA adducts, it was recently demonstrated that psoralens can also bind to specific saturable high affinity cellular receptors, and that this is associated with inhibition of epidermal growth factor (EGF)-receptor binding. In view of these findings, we have examined whether 8-methoxy-psoralen (8-MOP) itself, or in combination with UVA, influences expression of the human EGF-receptor gene ("HER-1") in a human keratinocyte cell line. We have found that 8 MOP alone, and to a lesser extent UVA, induce a striking increase in cellular levels of HER-1 RNA. The combination of 8-MOP with UVA produces less induction of HER-1 RNA than that obtained with 8-MOP alone. We suggest, therefore, that this effect of 8-MOP is not due to DNA damage, but may reflect a separate effect of this compound on receptor-mediated signal transduction.     

Two DNA endonuclease activities from normal human and xeroderma pigmentosum chromatin active on psoralen plus ultraviolet light treated DNA

DNA endonuclease activities from the chromatin of normal human and xeroderma pigmentosum, complementation group A (XPA), lymphoblastoid cells were examined on DNA treated with 8-methoxypsoralen (8-MOP) or 4,5',8-trimethylpsoralen (TMP) plus long wavelength ultraviolet (UVA) light, which produce monoadducts and DNA interstrand cross-links, and angelicin plus UVA light, which produces mainly monoadducts. 9 chromatin-associated DNA endonuclease activities were isolated from normal and XPA cells and assayed for activity on PM2 bacteriophage DNA that had been treated with 8-MOP or TMP in the dark and then exposed to UVA light. Unbound psoralen was removed by dialysis and a second dose of UVA light was given. Cross-linking of DNA molecules was confirmed by alkaline gel electrophoresis. In both normal and XPA cells, two DNA endonuclease activities were found which were active on 8-MOP and TMP plus UVA light treated DNA. One of these endonuclease activities, pI 4.6, is also active on intercalated DNA and a second one, pI 7.6, is also active on UVC (254 nm) light irradiated DNA. The major activity against angelicin plus UVA light treated DNA in both normal and XPA cells was found in the fraction, pI 7.6. The levels of activity of both of these fractions on all 3 psoralen-damaged DNAs were similar between normal and XPA cells. These results indicate that in both normal and XPA cells there are at least two different DNA endonucleases which act on both 8-MOP and TMP plus UVA light treated DNA.     

Defective DNA endonuclease activities in Fanconi's anemia cells, complementation groups A and B.

Cells from patients with the inherited disorder, Fanconi's anemia (FA), were analyzed for endonucleases which recognize DNA interstrand cross-links and monoadducts produced by psoralen plus UVA irradiation. Two chromatin-associated DNA endonuclease activities, defective in their ability to incise DNA-containing adducts produced by psoralen plus UVA light, have been identified and isolated in nuclei of FA cells. In FA complementation group A (FA-A) cells, one endonuclease activity, pI 4.6, which recognizes psoralen intercalation and interstrand cross-links, has 25% of the activity of the normal human endonuclease, pI 4.6, on 8-methoxypsoralen (8-MOP) plus UVA-damaged DNA. In FA complementation group B (FA-B) cells, a second endonuclease activity, pI 7.6, which recognizes psoralen monoadducts, has 50% and 55% of the activity, respectively, of the corresponding normal endonuclease on 8-MOP or angelicin plus UVA-damaged DNA. Kinetic analysis reveals that both the FA-A endonuclease activity, pI 4.6, and the FA-B endonuclease activity, pI 7.6, have decreased affinity for psoralen plus UVA-damaged DNA. Both the normal and FA endonucleases showed approximately a 2.5-fold increase in activity on psoralen plus UVA-damaged reconstituted nucleosomal DNA compared to damaged non-nucleosomal DNA, indicating that interaction of these FA endonucleases with nucleosomal DNA is not impaired. These deficiencies in two nuclear DNA endonuclease activities from FA-A and FA-B cells correlate with decreased levels of unscheduled DNA synthesis (UDS), in response to 8-MOP or angelicin plus UVA irradiation, in these cells in culture.     

Molecular aspects of extracorporeal photochemotherapy

8-methoxypsoralen (8-MOP), activated upon exposure to long-wavelength ultraviolet radiation, is used therapeutically to treat the diseased blood cells of cutaneous T-cell lymphoma patients. The factors responsible for the efficacy of this therapy are reviewed. Primary among these are the plasma level of 8-MOP at the time of irradiation and the effective dose of UVA. 8-MOP plasma levels determined in a series of six patients demonstrated that the drug is absorbed at a highly variable rate (122 ng/ml +/- 67). A new liquid form of 8-MOP is absorbed with a modest increase in plasma levels (170 ng/ml) but with no improvement in the variability (+/- 163). An examination of the dose-response relationship between 8-MOP concentration and UVA dose indicated that properties such as 8-MOP photoadduct formation and PHA response are proportional to the combined doses of these two factors. A new molecular target for 8-MOP photomodification, cell membrane DNA, is described.     

Genotoxic effects and DNA photoadducts induced in Chinese hamster V79 cells by 5-methoxypsoralen and 8-methoxypsoralen

The induction of lethal effects and 6-thioguanine-resistant (6-TGr) mutants were studied in Chinese hamster V79 cells after treatment with the two bifunctional furocoumarins 5- and 8-methoxypsoralens (5-MOP, 8-MOP) in the presence of 365-nm radiation (UVA). The in vivo DNA-photobinding capacity of these two compounds was measured and in parallel the cross-linking capacities of 5-MOP and 8-MOP were determined using the alkaline elution technique. The results show that 5-MOP plus UVA was about 2.5 times more effective than 8-MOP plus UVA for inhibiting cell survival and for inducing the same frequency of 6-TGr mutants (10(-4]. The total number of photoinduced lesions by 5-MOP plus UVA was about 6 times higher than that induced by 8-MOP plus UVA. However, the cross-linking capacities of 5-MOP and 8-MOP were found to be within the same range at equal doses of UVA. At equal number of DNA photoadducts produced, the lesions induced by 5-MOP appeared to be less genetically active than those induced by 8-MOP. The apparently weaker genotoxicity of 5-MOP-induced lesions is likely to be due to the induction of a lower proportion of cross-links by 5-MOP at a given number of photoadducts.     

Psoralen activity and binding sites in melanotic and amelanotic human melanoma cells

The biological activity and specific binding sites of 8-methoxypsoralen (8-MOP) are assayed using two human melanoma cell lines, melanotic SK-Mel 28 and amelanotic C32TG. Long-term (72 hr) treatment with 8-MOP at a concentration of 10(-4)M results in an increase in melanogenesis and a decrease in proliferation, similar in both cell lines. Daily exposure of these cells to ultraviolet A (UVA) irradiation (1.28 mJ/cm(2)) does not enhance the response to the compound. Daily pulse application (30 min daily) of 8-MOP does not promote any response. However, in combination with UVA, 8-MOP pulse treatment becomes as effective as the long-term treatment. A decrease in cell proliferation in the constant presence of 8-MOP is not coupled with apoptosis, since no increase in the number of apoptotic nuclei was observed after the treatment. The flow cytometry indicates that 8-MOP arrests the cells at the G0/G1 phase, irrespective of the presence or absence of UVA light. In view of the lack of epidermal growth factor (EGF) receptors in both cell lines, it is not likely that such an arrest is associated with the down-regulation of EGF receptors by 8-MOP. It is noted that this compound elicits a biphasic cell response, since cell proliferation increases after the first 24-hr treatment, whereas it decreases in the subsequent 48 hr and thereafter. Competition binding assays using 3H-8-MOP disclosed: 1) the specific binding of the compound in both cell lines occurs in the presence or absence of UVA light, and 2) a higher binding rate at low concentrations of the compound is in SK-Mel 28 (72%) rather than C32TG (58%) cells. The competition assays in the presence of UVA suggest a possible occurrence of covalent bindings between psoralen and receptor, as DNA covalent binding accounted to only 3-5% of the total binding in both cell lines.     

Repair of 8-methoxypsoralen monoadducts in mouse lymphoma cells

Studies of the repair of DNA lesions at biologically important doses is extremely difficult for most mutagens. With 8-methoxypsoralen (8-MOP) plus longwave ultraviolet light (UVA) as the lesion-inducing agent, however, it is easy to manipulate the relative frequency of different DNA adducts by means of a special experimental protocol (the tap-and-test protocol) and this can be used to measure repair of DNA adducts. Three classes of photoadducts are produced by 8-MOP plus UVA treatment: 3,4-cyclobutane monoadducts, 4',5'-cyclobutane monoadducts, and 8-MOP-DNA interstrand crosslinks. A monoadduct is formed when a photoactivated 8-MOP molecule reacts with a pyrimidine base. An 8-MOP-DNA interstrand crosslink is formed when an existing monoadduct is photoactivated to react with another pyrimidine base on the opposite DNA strand. Thus monoadducts are formed by absorption of one photon of light and crosslinks by absorption of two. In the tap-and-test experiments, cells were exposed to UVA in the presence of 8-MOP and then re-exposed to UVA in the absence of free 8-MOP so that only crosslinks can be produced by the second UVA treatment. By means of this technique we have previously shown that DNA crosslinks are much more effective than monoadducts at producing chromosomal damage (sister-chromatid exchanges and micronuclei) but not mutations (Liu-Lee et al., 1984). If L5178Y mouse lymphoma cells were able to remove monoadducts, incubation prior to the second UVA treatment should lead to decreases in the effect of re-irradiation, because fewer monoadducts would be available for crosslink formation. In this way, we have found that psoralen monoadducts are repaired in these cells and that about 70% of those capable of crosslink formation are removed or otherwise made unavailable for crosslink formation in 6 h.     

DNA semi-conservative synthesis in normal and Fanconi anemia fibroblasts following treatment with 8-methoxypsoralen and near ultraviolet light or with X-rays

Summary The effect of treatment with 8-methoxypsoralen (8-MOP) plus near-UV radiation (UVA) or with X-rays on the rate of DNA semi-conservative synthesis of fibroblasts from 10 Fanconi anemia (FA), two heterozygous, and three normal cell lines was studied. Following treatments with either X-rays or low doses of 8-MOP plus UVA leading to a majority of monoadducts over cross-links per genome, the FA and hetcrozygous cell lines were indistinguishable from normals: the transient inhibition of semi-conservative DNA synthesis was followed by the recovery of a nomral rate of synthesis. In contrast treatment with higher (but not saturating) doses of 8-MOP plus UVA allowed us to distinguish two classes among the FA cell lines. One class demonstrated a pattern of recovery similar to that of heterozygous and normal cell lines. This indicates that in such cell lines, the predominant lesion in this condition, the cross-links, do not arrest DNA synthesis and are likely to be normally repaired. Another class of FA cell lines did not show a recovery of a normal rate of DNA synthesis even after prolonged post-treatment incubation and although the proportion of cells in S phase was similar to that of the strains of the first category. This indicates that in such cell lines the repair of cross-links is inhibited at some step which is not necessarily the incision one.     

Monitoring human exposure to carcinogens by DNA adduct measurement

Sensitive immunologic techniques are now available for the detection and quantitation of carcinogen-DNA adducts. We have developed a number of specific monoclonal antibodies which recognize DNA modified by particular carcinogens, including benzo[a]-py-rene, aminopyrene, 8-methoxypsoralen plus UVA light and vinyl chloride. These antibodies can be used in competitive enzyme-linked immunosorbent assays to quantitate adducts in DNA isolated from biological samples. Samples from treated animals as well as from humans with occupational or environmental exposure to carcinogens have been studied. In addition, antibodies can be used in indirect immunohistochemical studies to localize adduct formation in various tissues or cell types.Abbreviations BPDE-1 7,8-dihydroxy-9,10-epoxy-7,8,9,10-tetrahydrobenzo[a]pyrene - CTCL Cutaneous T cell lymphoma - ELISA enzyme linked immunosorbent assay - 8-MOP 8-methoxypsoralen - PUVA 8-MOP plus UVA irradiation     

Mutagenic effects photoinduced in normal human lymphoblasts by a monofunctional pyridopsoralen in comparison to 8-methoxypsoralen

The photobiological effects induced by the monofuctional 7-methylpyrido[3,4-c]psoralen (MePyPs) in comparison to the bifunctional furocoumarin 8-methoxypsoralen (8-MOP) have been studied in a human lymphoblast cell line TK6. We report that, in human lymphoblasts, the cytotoxic effect of MePyPs plus UVA (365 nm) is much higher than that of 8-MOP plus 365-nm irradiation. The dose-modifying factor at the 37% survival level between the 2 compounds equals 120. Mutation induction by photoactivated MePyPs and 8-MOP has been studied in 2 genetic loci, hypoxanthine phosphoribosyl transferase (HPRT) and Na+/K+ ATPase. For equal UVA doses, the mutagenic effectiveness of MePyPs was higher than that of 8-MOP. However at equal survival levels, the mononfuctional psoralen MePyPs was less efficient than the bifunctional 8-MOP. In other words, compared to 8-MOP, the monofunctional agent MePyPs is more cytotoxic than mutagenic. This higher phototoxic and mutagenic efficiency of MePyPs in comparison to 8-MOP is likely to be related to the chemical nature of MePyPs-induced lesions which may be responsible for a reduced recognition and/or accessibility of the repair enzymes to damaged DNA.     

PUVA (8-methoxy-psoralen plus ultraviolet A) induces the formation of 8-hydroxy-2'-deoxyguanosine and DNA fragmentation in calf thymus DNA and human epidermoid carcinoma cells.

The objective of this study is to investigate if 8-methoxy-psoralen (8-MOP) plus ultraviolet A (UVA) radiation (PUVA) induces oxidative DNA damage. When calf thymus DNA was incubated with 8-MOP and irradiated with UVA (335-400 nm), the level of 8-hydroxy-2'-deoxyguanosine (8-OHdG) was substantially increased by approximately 6-fold. Formation of 8-OHdG proportionally correlated with both UVA fluence and 8-MOP concentrations. Human epidermoid carcinoma cells were incubated with 10 microg 8-MOP per milliliter, followed by irradiation of 25 kJ/m2 UVA. The level of 8-OHdG increased by nearly 3-fold in PUVA-treated cells compared to 8-MOP and UVA controls. The formation of 8-OHdG correlated with DNA fragmentation as determined by spectrofluorometry. To investigate the reactive oxygen species (ROS) involved in PUVA-induced oxidative DNA damage, less or more specific ROS quenchers were added to DNA solution prior to PUVA treatment. The results showed that only sodium azide and genistein significantly quenched PUVA-induced 8-OHdG, whereas catalase, superoxide dismutase, and mannitol exhibited no effect. The quencher study with cultured cells indicated that N-acetyl-cysteine and genistein protected oxidative DNA damage as well as DNA fragmentation by PUVA treatment. Our studies show that PUVA treatment is able to induce the formation of 8-OHdG in purified DNA and cultured cells and suggest that singlet oxygen is the principle reactive oxygen species involved in oxidative DNA damage by PUVA treatment.     

Monoclonal antibodies to DNA modified by 8-methoxypsoralen and ultraviolet A light.

A panel of monoclonal antibodies have been developed which specifically recognize DNA modified by 8-methoxypsoralen (8-MOP) and ultraviolet A light (320-400 nm) (UVA). These antibodies have been characterized as to sensitivity and specificity by an enzyme linked immunosorbent assay (ELISA). In a competitive ELISA with the most sensitive antibody, 50% inhibition of antibody binding occurred at 17 fmole 8-MOP-DNA photo adducts. One adduct per 10(7) bases could be reliably detected. There was also some antibody cross-reactivity with DNAs modified by 4' aminomethyl-4, 5, 8-trimethylpsoralen and 4', 5-dimethylangelicin as well as DNA isolated from cells treated with 8-MOP and UVA. The primary specificity of one of the antibodies was shown to be the 4', 5' thymine monoadduct by competitive inhibition studies using HPLC fractions of an enzymatic digest of 8-MOP poly(dA-dT) . poly(dA-dT). These antibodies should allow the quantitation of adduct levels in various in vitro systems as well as humans exposed clinically to 8-MOP and UVA.     

Investigation of the mutagenic activity in Salmonella typhimurium of the furochromone khellin, proposed as a therapeutic agent for skin diseases.

The photomutagenicity of the furochromone khellin was tested in Ames Salmonella strains using 8-methoxypsoralen (8-MOP) and 4,5', 8-trimethylpsoralen (TMP) as positive controls. When khellin was assayed with strain TA1537, mutation induction was not detectable; in the same strain, an equitoxic dose (52-56% level of survival) of TMP (used at a concentration 12-fold lower than khellin and with a UVA dose 83-fold lower than that used with khellin) yielded an increase in revertants/plate 3-fold above the spontaneous background. In strain TA102, khellin plus UVA treatment yielded a 2-fold increase in revertants/plate above the spontaneous background (79% survival). 8-MOP, however, used at a concentration 8-fold lower than khellin with a UVA dose 13-fold lower than khellin, yielded an increase in revertants/plate about 14-fold above background (66% survival) in the same strain. These data show that khellin has a weak photomutagenic potential and, along with the previously reported low photogenotoxic potential in eukaryotic cell systems, support the notion that khellin may be safer than bifunctional psoralens for clinical use.     

Stress response induced by DNA damage leads to specific, delayed and untargeted mutations

Summary Cells of the mouse T-lymphoma line GRSL13 were treated with 8-methoxy-psoralen plus longwave ultraviolet light (PUVA) under conditions where the biological effects are mainly due to non-persistent DNA crosslinks (PUVA-CL treatment). Fluctuation analysis showed that PUVA-CL treatment resulted in an enhancement of the mutation rate in the progeny of treated cells, which persisted until the eleventh generation after treatment. Since only 5 cross-links are available to account for 52 mutational events observed in the coding region, about 90% of the induced mutational events must have been untargeted. This was confirmed by molecular analysis of these mutations, which showed that 53% of the point mutations arose at sites which are not a target for psoralens. This supports the hypothesis that stress responses may give rise to untargeted mutagenesis. Further support for this hypothesis is provided by the observation that 8-methoxy-psoralen (8-MOP) or UVA alone (both of which are known to induce many pleiotropic effects) each acted as indirect mutagen by enhancing the mutation rate 2–4 fold in the progeny of treated cells.     

Repair of exogenous (plasmid) DNA damaged by photoaddition of 8-methoxypsoralen in the yeast Saccharomyces cerevisiae

The contribution of different repair pathways to the repair of 8-methoxypsoralen (8-MOP) plus UVA induced lesions on a centromeric plasmid (YCp50) was investigated in the yeast Saccharomyces cerevisiae using the lithium acetate transformation method. The pathways of excision-resynthesis (RAD1) and recombination (RAD52) were found to be involved in the repair of exogenous as well as of genomic DNA. Mutants in RAD6 and PSO2 genes showed the same transformation efficiency with 8-MOP plus UVA treated plasmid as wild-type cells suggesting that these latter pathways involved in mutagenesis are not operating on plasmid DNA although required for the repair of 8-MOP photoadducts induced in genomic DNA. These results indicate that DNA-repair gene products may be differently involved in the repair of exogenous and endogenous DNA depending on the repair system and the nature of the DNA damage considered.     

Photochemotherapy using pyridopsoralens

Aiming to decrease the acute side effects and genotoxic hazards of PUVA, pyrido (3,4-C) psoralen (PP) and 7-methyl pyrido (3,4-C) psoralen (MPP) were synthesized and studied. Their UVA maximum absorption lies at 325 and 330 nm, respectively. Their photostability is comparable to that of 8-MOP. They complex to DNA in the dark, and, in the presence of UVA, produce only monoadditions to DNA, as shown by fluorescence and DNA denaturation-renaturation studies. In diploid eukaryotic yeast they are more effective than 8-MOP for the induction of lethal effects and mitochondrial damage. Their mutagenic activity per unit dose of UVA is in the same range as that of 8-MOP. However, per viable cell they are clearly less mutagenic than 8-MOP. This difference is also observed for recombinogenic activity. No oxygen effect is observed. In mammalian cells the following ranges of effectiveness are found: inhibition of DNA synthesis in human fibroblasts: MPP greater than PP greater than 8-MOP; mutagenic activity in V79 Chinese hamster cells: MPP greater than PP greater than 8-MOP; cell transforming ability in C3H embryonic mouse cells: MPP greater than 8-MOP greater than PP as a function of UVA dose, and: 8-MOP greater than MPP greater than PP as a function of survival; induction of sister chromatic exchanges (SCE) per unit dose: MPP greater than PP greater than 8-MOP in the linear part of the induction curve, and : 8-MOP greater than PP greater than MPP at the maximum level of SCE obtained.(ABSTRACT TRUNCATED AT 250 WORDS)     

Genetic effects of specific DNA lesions in mammalian cells

Accurate dosimetry for chemical mutagens is extremely difficult, and precise manipulation of the frequency of a particular lesion is ordinarily impossible. With 8-MOP plus UVA, however, both are possible because 8-MOP, when photoactivated by one photon of UVA, forms monoadducts whilst crosslinks are formed only if a second photon of light photoactivates the monoadducts. If 8-MOP molecules that are unreacted after a UVA exposure are removed from cells by washing, the effect of a subsequent UVA irradiation can be attributed only to the conversion of monoadducts to DNA interstrand crosslinks. Using this experimental procedure and L5178Y mouse lymphoma cells, we have shown that DNA interstrand crosslinks are at least 10-fold more effective at causing both sister-chromatid exchanges and chromosomal aberrations than are monoadducts. In contrast, crosslinks are no more effective than monoadducts in mutation induction. These experiments identify directly for the first time that a particular chemically induced lesion, DNA interstrand crosslinks, can, like thymine dimers, cause chromosomal aberrations and sister-chromatid exchanges. The results also show that sister-chromatid exchanges can be induced independently of mutations.     

Thiopyronine and 8-methoxypsoralen sensitized photodynamic effect on DNA synthesis in yeast

Summary The synthesis of DNA in growing yeast cells was investigated after photodynamic treatment of the cells with thiopyronine (TP) and visible light or with 8-methoxypsoralen (8-MOP) and UVA light.DNA synthesis was inhibited after photodynamic treatment with 8-MOP but not after photodynamic treatment with TP. This result is further evidence that the photodynamic effect with TP does not attack nuclear DNA in eucaryotic cells.     

Chromosome damage induced in human lymphocytes by 5-methoxypsoralen and 8-methoxypsoralen plus UV-A

The induction of structural chromosome aberrations and sister chromatid exchanges (SCE) was studied in human lymphocytes in vitro after treatment with the two bifunctional furocoumarins 5-methoxypsoralen (5-MOP) and 8-methoxypsoralen (8-MOP) in the presence of UV-A. The results show that both psoralens induce a dose-dependent increase in the SCE rate as well as in structural chromosome aberrations. 5-MOP was 2.0-2.5 times more effective for the induction of chromosome breaks and had a slightly stronger effect with respect to SCE induction. A significant influence on proliferation kinetics could be observed only with 5-MOP plus UV-A.