SENSITIVITY OF DNA REPAIR-DEFICIENT STRAINS OF ESCHERICHIA COLI K-12 TO VARIOUS FUROCOUMARINS AND NEAR-ULTRAVIOLET RADIATION

Abstract— Survival curves were obtained for DNA repair-deficient strains of Escherichia coli K-12 ( polA1, uvrB5 , and recA56 ) exposed to near-ultraviolet radiation [black light (BL)] in the presence of the DNA cross-linking agent 8-methoxypsoralen (8-MOP) or in the presence of photosensitizers forming primarily monoadducts with DNA [angelicin; 3-carbethoxypsoralen (3-CPs); 5,7-dimethoxycoumarin (DMC)], and after exposure to blue light (BluL) in the presence of 8-MOP or 3-CPs. An interpretation of these data suggests that DNA polymerase I is required for the major pathway of monoadduct repair, but appears to play little or no role in the repair of 8-MOP cross-links. The uvrB and recA strains were very sensitive, both to the cross-linking agent and to the monoadduct formers. The markedly different results for BL plus DMC or 3-CPs compared to angelicin suggests that the DMC and 3-CPs monoadducts are repaired by a different mechanism than are the angelicin monoadducts, or else DMC and 3-CPs undergo photochemical side reactions that produce DNA lesions other than the expected monoadducts. From photochemical evidence, we predicted that fewer 8-MOP monoadducts should be converted to cross-links by BluL vs BL; this appears to be the case. 3-CPs showed dramatically different biological results when irradiated with BL vs BluL, suggesting that 3-CPs may form more types of photoproducts than the expected monoadducts; BluL, however, appears to favor monoadduct formation.     

ACTIVATION OF THE HUMAN IMMUNODEFICIENCY VIRUS PROMOTER BY UVA RADIATION IN COMBINATION WITH PSORALENS OR ANGELICINS

Abstract— The effects of mono- and bifunctional furocoumarins plus UVA radiation (PUVA and related treatments) on the human immunodeficiency virus-1 (HIV-1) promoter were studied using HeLa cells stably transfected with the chloramphenicol acetyl transferase gene under the control of the HIV-1 promoter. The experiments were performed with three psoralens (5-methoxypsoralen, 5-MOP; 8-methoxypsoralen, 8-MOP; and 4′-aminomethyl-4,8,5′-trimethyl-psoralen, AMT) and four angelicins (angelicin; 4,5′-diniethylangclicin, 4,5′-DMA; 6,4′-dimethylangelicin, 6,4′-DMA; and 4,6,4′-trimethylangelicin, TMA). The drugs alone and UVA radiation alone showed no erect on the HIV promoter. However, when the cells were incubated with the furocoumarins at 0.1–40 μg/mL and then irradiated. the HIV promoter was activated in distinct fluence ranges, i.e. (1) no promoter activity was discernible at low fluences (e.g. at 0.1 μg/mL of 8-MOP up to 100 kJ/m²), (2) as the fluence was increased, the promoter activity increased to reach a maximum (10–50-fold with respect to the unexposcd samples), and (3) as the fluence was further increased, the promoter activity decreased. Similar (although shifted on the fluence scale) pattcrns were observed with either > 340-nm UVA radiation or with UVA radiation contaminated with a small amount of UVB radiation (typical for PUVA lamps). The effective fluences were inversely related to the drug concentration. Experiments with 5-MOP and 8-MOP indicated reciprocity of the drug concentration and radiation hence. The HIV promoter response patterns were similar for monofunctional angelicins and bifunctional psoralens. This indicated that the furocoumarin-DNA crosslinks are not a prerequisite for the promoter activation and that the monoadducts suffice to elicit the HIV promoter response. The HIV promoter-activating effectiveness of diKcrent drugs correlated with their photosensitizing potential. Thus, among psoralens the effectiveness order was AMT >. 5-MOP >8-MOP, and among angelicins: TMA > 6,4′-DMA > 4,5′-DMA > angelicin. The ektiveness did not vary substantially for 5-MOP, 8-MOP, 4,5′-DMA, and 6,4′-DMA. The combined drug and UVA radiation doses were higher than those that elicit cellular responses or those that may be received by the human white blood cells during cxtracorporeal PUVA therapy (photopheresis).     

THE WAVELENGTH DEPENDENCE OF THE EFFECT OF 8-METHOXYPSORALEN PLUS ULTRAVIOLET RADIATION ON THE INDUCTION OF LATENT SIMIAN VIRUS 40 FROM A MAMMALIAN CELL

Abstract— The effect of 8-methoxypsoralen (8-MOP) plus ultraviolet radiation (UV) of different wavelengths in the region 238–365 nm on the induction of SV40 from SV40-transformed Syrian hamster kidney cells was investigated. Results indicate that 8-MOP + UV treatment activates as much as 1000-fold more virus than UV alone at wavelengths in the region 302–365 nm. At wavelengths below 302 nm, 8-MOP addition to cells prior to irradiation shows little, if any, effect. A wavelength dependence for this viral induction is presented.     

Action spectra for photoinduced inactivation of bacteriophage T7 sensitized by 8-methoxypsoralen and angelicin

The action spectrum (240-300 nm) for photoinactivation of unsensitized phage T7 and the action spectra (310-380 nm) for photoinactivation of phage T7 sensitized with 8-methoxypsoralen (8-MOP) and angelicin were measured by an automated method. For unsensitized phage T7 the action spectrum is in good agreement with the absorption spectrum. For sensitization with angelicin the action spectrum is similar to the absorption spectrum, but for sensitization with 8-MOP the spectra are different. The agreement between the T7 absorption and action spectra in the far-UV region is due to photodamage of DNA, leading to phage inactivation. The similarity in the action and absorption spectra in the near-UV region for sensitization with angelicin seems to be in accordance with the monofunctional photobinding of angelicin to DNA. The action spectrum for sensitization with 8-MOP has a maximum at about 320 nm and this suggests that, in addition to the monoadducts, the biadducts play a role in the inactivation of phage T7. Taking the number of bound furocoumarin molecules into consideration, the quantum efficiencies were estimated. Furocoumarin increases the quantum efficiency in the near-UV region and the values are similar to those obtained in far-UV light without psoralens.     

MUTAGENIC AND RECOMBINOGENIC ACTION OF DNA MONOADDUCTS PHOTOINDUCED BY THE BIFUNCTIONAL FUROCOUMARIN 8-METHOXYPSORALEN IN YEAST (Saccharomyces cerevisiae)

Abstract— For the same furocoumarin 8-MOP and the same total number of photoadditions, the genetic activity of DNA monoadducts and a mixture of mono- and biadducts photoinduced by the bifunctional furocoumarin 8-methoxypsoralen (8-MOP) is compared in the yeast Saccharomyces cerevisiae. In the presence of 8-MOP, 405 nm irradiation induces only monoadducts, whereas 365 nm irradiation induces mono- and biadducts (interstrand cross-links) in DNA. This is shown by heat denaturation-renaturation experiments on calf thymus DNA treated in vitro and by alkaline step elution analysis of DNA from treated yeast cells. For the same photobinding of tritiated 8-MOP to DNA in diploid yeast, about 20 times higher doses are needed with 405 nm than with 365 nm irradiation. Re-irradiation experiments reveal that part of the monoadducts induced by 8-MOP and 405 nm irradiation can be effectively converted into DNA interstrand cross-links by exposures to 365 nm radiation after washing-out of unbound 8-MOP molecules. 8-MOP and 405 nm irradiation induce per lethal hit cytoplasmic "petite" mutations in yeast as efficiently as the monofunctional furocoumarin 3-carbethoxypsoralen (3-CPs) and 365 nm irradiation, both treatments being much more efficient than 8-MOP and 365 nm irradiation. At equal survival, treatments with 8-MOP and 405 nm radiation are clearly less efficient than treatments with 8-MOP and 365 nm radiation for the induction of forward ( CAN *) and reverse ( HIS +) mutations in haploïd yeast and for the induction of mutations ( ILV +) and genetically aberrant colonies including mitotic crossing-over in diploid yeast. The two treatments are equally efficient for the induction of mitotic gene conversion. At equal photobinding of 8-MOP, the monoadducts induced by 405 nm irradiation are found less effective than the mixture of mono-and biadducts induced by 365 nm irradiation for the induction of cell killing, mutations and mitotic recombination.     

INHIBITION OF DNA SYNTHESIS BY PSORALEN-INDUCED LESIONS IN XERODERMA PIGMENTOSUM AND FANCONI''S ANEMIA FIBROBLASTS

Abstract— Exposure of human cells to psoralens and near-UV light produces a mixture of monoadducts and crosslinks in DNA, which inhibit DNA synthesis by blocking replicon initiation and chain elongation. 8-Methoxypsoralen (8-MOP) has a greater effect than angelicin in normal, xeroderma pigmentosum, and Fanconi's anemia cells. Recovery of DNA synthesis is not detectable up to 8 h after exposure. The average distance between lesions that block replication in individual replicons was measured by means of bromodeoxyuridine photolysis. After exposure to 10 μg/mℓ of 8-MOP and 7500 J/m² of near-UV light, blocks were formed every 20 μm. Replicon initiation was inhibited by exposure to near-UV light alone in normal and xeroderma pigmentosum. Exposure to low concentrations of angelicin or 8-MOP plus near-UV light inhibited replicon initiation in normal and Fanconi's anemia cells, but not in xeroderma pigmentosum cells. Inhibition of initiation was not obvious after treatment with high concentrations of 8-MOP or angelicin because of the dominant effect of crosslinks in blocking chain elongation.     

HERPES VIRUS PRODUCTION IN MONKEY KIDNEY AND HUMAN SKIN CELLS TREATED WITH ANGELICIN OR 8-METHOXYPSORALEN PLUS 365 nm LIGHT

Abstract—At an cquimolar concentration of 50 μM the bifunctional furocoumarin, 8-methoxypsoralen (8-MOP), is about 36 times more efficient in inhibiting the colony forming ability of CV-I monkey kidney cells than the monofunctional furocoumarin angelicin. In contrast 8-MOP is only 7.5 times more efficient than angelicin for the inhibition of herpes simplex virus (HSV) production in CV-1 cells. This latter factor seems to reflect differences in photoreactivity of the two compounds with host cell DNA.
A substantial recovery of HSV production was seen when cells were infected at different time intervals after treatment with angelicin-plus-light, whereas recovery was very limited after 8-MOP plus light treatment. The recovery process was slow as compared to that observed after UV (254 nm)-irradiation.
The repair capacities of treated normal and xeroderma pigmentosum (group A) skin fibroblasts were estimated by measuring HSV production and unscheduled DNA synthesis. XP-A cells repaired angelicin induced damage less efficiently than did normal cells. Neither cell type showed any repair activity after 8-MOP plus light treatment.     

The Lack of Efficacy of 4,6,4'-Trimethylangelicin to Induce Immune Suppression in an Animal Model for Photopheresis: a Comparison with 8-MOP

Photopheresis is an extracorporeal form of photochemo-therapy with 8-methoxypsoralen (8-MOP) and UVA (PUVA). Patients ingest 8-MOP and then a psoralen-rich buffy coat is obtained by centrifugation and mixed with saline. This mixture is recirculated through a UVA radiation field and then reinfused. Photopheresis appears to be effective for several T cell-mediated disorders, because the treatment results in a specific immune response against the pathogenic clone of T cells involved. With PUVA therapy, the whole body of the patient is exposed to UVA, after ingestion of 8-MOP. Upon UVA exposure 8-MOP binds to, amongst others, DNA and induces DNA monoadducts and interstrand cross-links. As a result of these photoadducts photocarcinogenicity is a risk in PUVA. In PUVA for psoriasis, it proved that angular furocoumarins, although almost incapable of inducing DNA cross-links (less carcinogenic), are still effective. In order to determine if monoadducts induced by photopheresis could also be effective we used, specifically, 4,6,4'-trimethylangelicin (TMA). In this report, we compare the photodegradation of both TMA and 8-MOP under conditions relevant to the in vivo situation, as well as the effect both compounds have on the viability of rat lymphocytes as measured with the 3–(4,5-dimethylthia-zol-2-yl)-2,5-diphenyl tetrazolium bromide (MTT) assay. We show that TMA did not induce immunosuppression in vivo , even after extensive irradiation. In addition a dose dependency of 8-MOPNVA versus the induced immune suppression was carried out. It was shown that there is a log doselresponse correlation of r = 0.9205.     

8-METHOXYPSORALEN-PHOTOINDUCED DNA CROSSLINKS AS DETERMINED IN YEAST BY ALKALINE STEP ELUTION UNDER DIFFERENT REIRRADIATION CONDITIONS. RELATION WITH GENETIC EFFECTS

Abstract— DNA damage induced by 8-methoxypsoralen (8-MOP) plus near UV light (UVA) was analyzed in diploid yeast using the alkaline step elution technique. The presence of 8-MOP and UVA induced DNA interstrand cross-links was revealed by the increase of DNA retained on elution filters as compared to untreated controls. The fraction of DNA retained on filters increased linearly with UVA dose. The amount of cross-links was estimated from the fraction of DNA retained on filters using a dose of -radiation leading to a number of DNA strand breaks at least equivalent to the number of 8-MOP induced photoadducts.
When 8-MOP treated cells were exposed to monochromatic light, 365 nm light induced monoadducts and cross-links whereas 405 nm light induced only monoadducts. When submitting 8-MOP plus 405 nm light treated cells to 365 nm irradiation, after removal of unbound 8-MOP by washing, a portion of 8-MOP plus 405 nm light induced monoadducts was converted into cross-links. The amount of monoadducts transformed into cross-links was dependent on the dose of 365 nm irradiation up to a maximum likely to correspond to the number of suitably positioned furan-side monoadducts that could be converted into biadducts. When 8-MOP plus 365 nm light treated cells were reirradiated with 365 nm light, following the same protocol, the maximum level of cross-linking obtainable in yeast was lower than that obtained with 8-MOP in a 405 nm plus 365 nm reirradiation protocol.
In the presence of 8-MOP single exposures to 405 nm light were found to be only slightly genotoxic. However, when followed by second exposures to 365 nm light, a dose-dependent increase in genetic effects, i.e. mutation and gene conversion, was observed in parallel to the induction of DNA crosslinks. These results stress again the prominent role of DNA cross-links in the genotoxicity of 8-MOP.     

INDUCTION OF CROSS-LINKS IN VIRAL DNA BY NATURALLY OCCURRING PHOTOSENSITIZERS

Abstract— Six different photosensitizers were compared for their ability to form cross-links in murine cellular DNA and murine cytomegalovirus DNA, in the presence of long wave UV radiation. The viral DNA was in the form of free DNA or intact virions. The compounds consisted of the linear furanocoumarins 8-methoxypsoralen (8-MOP) and isopimpinellin; the angular furanocoumarin, angelicin; the two furanochromones, visnagin and khellin; and the β-carboline alkaloid, harmine. Cross-linking was assessed by alkaline agarose gel electrophoresis and hydroxyapatite chromatography. 8-MOP produced extensive cross-linking (as expected), as did isopimpinellin. Visnagin produced less cross-linking, such that not all DNA molecules were affected at the concentrations used. Khellin, angelicin and harmine produced no detectable cross-linking. The same result was obtained for DNA which was treated in situ in the virion. To some degree there was a correlation between the amount of cross-linking and the relative potency of anti-MCMV infectivity. But other factors evidently contribute to the phototoxic effect of these compounds.     

THE EFFECT OF DARK COMPLEXING ON THE PHOTOSENSITIZED FORMATION OF 8-METHOXYPSORALEN CROSS-LINKS WITH DNA*

The near-UV dose at 365 nm required for the formation of 8-methoxypsoralen (8-MOP) cross-links with calf thymus DNA was found to be insensitive to the concentration ratio of nucleotides to 8-MOP over the range 100:1 to 5:1. The proposed explanation is that only the dark-complexed 8-MOP contributes to the photosensitized formation of monoadducts and cross-links. A kinetics analysis indicates that the fluence required for cross-linking should be inversely proportional to the square root of the fraction of dark-complexed 8-MOP per nucleotide (the binding ratio), a quantity that is insensitive to the ratio of nucleotides to 8-MOP. These findings predict a small dependence of photosensitivity on the total 8-MOP concentration in cellular systems in which cross-links are the major lethal lesion.     

A NEW MONOFUNCTIONAL PYRIDOPSORALEN: PHOTOREACTIVITY and REPAIR IN YEAST

Abstract— The newly synthesized derivative of psoralen, the pyrido (3,4-c) 7 methylpsoralen (MePyPs), acts in combination with 365 nm ultraviolet as a monofunctional agent on yeast DNA. In vivo, its photoaffinity for DNA is much higher than that of the bifunctional agent, 8-methoxypsoralen (8-MOP). The MePyPs photo-induced monoadducts are almost completely removed from wild type cells DNA as efficiently as 8-MOP photo-induced adducts during post-treatment incubation. This process is blocked in excision-repair defective mutants (6 to 10% residual excision in radl- Δ or rad2- Δ ). For an equal number of photoinduced lesions, the DNA single strand breaks which are produced concomitantly to MePyPs or 8-MOP photoadducts excision are rapidly rejoined in the case of 8-MOP whereas they are only partly resealed for the MePyPs treatment. The high photo-toxicity of MePyPs, a promising agent for photo-chemotherapeutic use, is explained in terms of the high photoaffinity for DNA.     

UVA-induced binding of 8-methoxypsoralen to cells of Saccharomyces cerevisiae: separation and characterization of DNA photoadducts

We present methods for the determination of UVA-induced binding of 8-methoxypsoralen (8-MOP) to nucleic acids and protein and for a quantitative assay of radioactively labelled 8-MOP plus UVA induced DNA photoproducts in the yeast Saccharomyces cerevisiae. For the dose range up to 60 kJ m-2, with a wild-type survival of 1% or higher, binding to DNA is 100-fold and to RNA 10- to 20-fold more efficient than that to protein. Between 20% and 65% of the 8-MOP binds to macromolecules that are neither nucleic acids nor protein. The number of DNA-bound 8-MOP molecules for the haploid genome rises from 14 (unirradiated control) to 349 at the highest UVA exposure dose (60 kJ m-2). Gel chromatography reveals three types of DNA thymine photoproduct, the pyrone-side monoadducts, the furan-side monoadducts and the diadducts. Among these, pyrone-side monoadducts always constitute the smallest fraction, regardless of whether the treatment is with in vitro or in vivo 8-MOP plus UVA.     

Furocoumarins photolysis products induce differentiation of human erythroid cells

Psoralens, also known as furocoumarins, are a well-known class of photosensitizers largely used in the therapy of various skin disease. In this study we have evaluated the effects of crude pre-irradiated solutions of furocoumarins derivatives on (a) erythroid differentiation and apoptosis of human leukemic K562 cells and (b) hemoglobin synthesis in cultures of human erythroid progenitors derived from the peripheral blood. To prove the activity of a mixture of photoproducts generated by UVA irradiation of the three psoralen derivatives 5-methoxypsoralen (5-MOP) 8-methoxypsoralen (8-MOP), and angelicin (ANG), we employed the human leukemic K562 cell line and the two-phase liquid culture procedure for growing erythroid progenitors. The results obtained demonstrate that pre-irradiated solutions of psoralen derivatives significantly induce erythroid differentiation of K562 cells irrespective of the type of derivative used, suggesting that the active photoproduct(s) share a common structure. Interestingly, solutions of psoralens irradiated in anaerobic conditions do not exhibits erythroid inducing ability, indicating that the effect is mostly due to photooxidized psoralen products. In erythroid precursor cells, psoralens photolysis products stimulates at low concentrations an increase of hemoglobin A and hemoglobin F. Altogether, these data suggest that photoproducts of psoralen warrant further evaluation as potential therapeutic drugs in beta-thalassaemia and sickle cell anaemia.     

DIFFERENTIAL EFFECTS OF PHOTOACTIVE FURANYL COMPOUNDS ON VIRUS FUNCTIONS

Abstract— Five photoactive furanyl compounds were investigated for their activities against viruses. The two furanocoumarins used were 8-methoxypsoralen (8-MOP) and angelicin; two furanochromones, visnagin and khellin, and the furanoquinoline, dictamnine, were also used. The DNA-containing herpes virus murine cytomegalovirus (MCMV) and the RNA-containing togavirus, Sindbis virus, were the target viruses. All five compounds inactivated both viruses in the presence of UVA, although Sindbis virus was much less sensitive. The relative order of antiviral potency was 8-MOP > dictamnine > visnagin > angelicin > khellin. Dictamnine however was slightly more effective than 8-MOP against Sindbis virus. None of the treatments affected the structural integrity of MCMV, nor did they interfere with the normal transit of the virus into host cells or the localisation of the viral genome in the cell nucleus. Some early viral gene functions were expressed but the viruses did not replicate.     

4, 4'', 5''-TRIMETHYL-8-AZAPSORALEN, A NEW-PHOTOREACTIVE AND NON-SKIN-PHOTOTOXIC BIFUNCTIONAL BIOISOSTER OF PSORALEN

Photochemical and photobiological properties of a new isoster of psoralen, 4,4',5'-trimethyl-8-azapsoralen (4,4',5'-TMAP), have been studied. This compound shows a high DNA-photobinding rate, higher than that of 8-methoxypsoralen (8-MOP), forming both monoadducts and inter-strand cross-links. The yield of cross-links, however, is markedly lower than that of 8-MOP. Antiproliferative activity of 4,4',5'-TMAP, in terms of DNA synthesis inhibition in Ehrlich ascites tumor cells, is higher than that of 8-MOP. Mutagenic activity on E. coli WP2 R46+ cells appeared similar to or even lower than that of 8-MOP. This new compound applied on depilated guinea pig skin and irradiated with UVA did not show any skin-phototoxicity. On the basis of these properties 4,4',5'-TMAP appears to be a potential photochemotherapeutic agent.     

A new class of psoralen photoadducts to DNA components: isolation and characterization of 8-MOP adducts to the osidic moiety of 2'-deoxyadenosine

The near-UV-induced photoreaction of the bifunctional 8-methoxypsoralen (8-MOP) with 2'-deoxyadenosine (dAdo) was investigated in the dry state. Four main monoadducts of 8-MOP to 2'-deoxyadenosine were separated by high performance liquid chromatography and subsequently characterized by soft ionization mass spectrometry (fast atom bombardment and plasma desorption mass spectrometries) and extensive 1H NMR analysis including nuclear Overhauser effect (NOE) measurements. These new types of furocoumarin-nucleic acid component which appear to be specific to 2'-deoxyadenosine were shown to result from recombination of the 3,4-dihydropyron-4-yl radical of 8-MOP with 2'-deoxyadenosyl radical either at the 1' or the 5' position.     

THE EXCITATION OF 8-METHOXYPSORALEN WITH VISIBLE LIGHT: REVERSED PHASE HPLC QUANTITATION OF MONOADDUCTS and CROSS-LINKS

Abstract— The formation of 8-methoxypsoralen-DNA monoadducts and cross-links is presumed to be responsible for the efficacy of photochemotherapies that employ 8-methoxypsoralen activated with long-wavelength ultraviolet radiation (UVA,320–400 nm). In this report it is shown that 8-methoxypsoralen can also be activated with visible light (419 nm). Bovine aorta smooth muscle cells were treated with 8-methoxypsoralen (1000 ng/mL) and 419 nm light (up to 12 J/cm²). Cellular DNA was isolated, hydrolyzed using nucleolytic enzymes and then analyzed by reversed-phase high-performance liquid chromatography. The primary effect of using visible light instead of long-wavelength ultraviolet radiation is a more than 10-fold reduction in the extent of cross-link formation. Because the extent of monoadduct and cross-link formation has not been routinely measured in experiments in which cellular assays have been performed, it is difficult to correlate cell response to the presence of a particular type of 8-methoxypsoralen photoadduct (monoadduct or cross-link). Thus, the use of visible light allows the study of cells containing nearly 100% monoadducts. In addition, the reduction in cross-link formation when visible light is used to activate the compound may also reduce the mutagenicity of 8-methoxypsoralen and hence enhance its therapeutic efficacy.     

TRIPLET EXCITED STATES OF 4'',5''-PHOTOMONOADDUCTS OF 3- CARBETHOXYPSORALEN and 8-METHOXYPSORALEN WITH DNA NUCLEOSIDES

Abstract— Triplet absorption spectra, triplet extinction coefficient and intersystem crossing for 4',5'-monocycloadducts of 3-carbethoxypsoralen (3-CPs) with thymidine (dThd) and uridine (dUrd) in ethanol have been investigated in order to elucidate whether their triplet state properties could be the limitating step for a further photoreaction of 3-CPs monoadducts with DNA nucleosides. The comparison between the triplet characteristics of 4',5'-monoadducts of 3-CPs and those of 8-methoxypsoralen (8-MOP) shows that the quantum yield is much higher in the case of 3-CPs than for 8-MOP. The monofunctionality of 3-CPs cannot therefore be ascribed to the triplet excited states properties of its monoadducts. It is likely that steric hindrance introduced by the bulky carbethoxy group remains a reasonable explanation.     

IMPROVED HIGH-PERFORMANCE LIQUID CHROMATOGRAPHIC ANALYSIS OF 8-METHOXYPSORALEN MONOADDUCTS and CROSS-LINKS IN POLYNUCLEOTIDE, DNA, and CELLULAR SYSTEMS: ANALYSIS OF SPLIT-DOSE PROTOCOLS

Abstract— The distribution of 8-methoxypsoralen-thymidine photoadducts from polynucleotides, calf thymus DNA and mammalian cells treated with [³H]8-methoxypsoralen under a variety of irradiation conditions was determined using high-performance liquid chromatography and scintillation analysis. The split-dose protocol, with samples treated with 8-methoxypsoralen and low doses of long-wavelength UV radiation to generate monoadducts, washed to remove unreacted 8-methoxypsoralen, then irradiated further to convert the monoadducts to cross-links, was examined. The photoadduct distribution in the first step is dependent upon the UVA dose and the wavelength of the radiation, but it is relatively independent of 8-methoxypsoralen concentration. Low fluence and longer wavelengths generate mainly 4',5'-monoadducts, whereas higher fluences and shorter wavelengths yield more cross-links. The second irradiation step converts the 4',5'-monoadducts to cross-links as well as to 3,4-monoadducts. The overall yield of cross-links after the second irradiation step is not dependent upon the wavelength used in the first step. Cellular studies demonstrated that the split-dose protocol is applicable to mammalian systems. These results may afFect the interpretation of mutagenesis studies based on the split-dose protocol, because the second step can convert 4',5'-monoadducts to both 3,4-monoadducts, the expected cross-links. Therefore, interpretations that link increases in mutagenicity after the second step in a split-dose study solely to cross-link formation may need re-examination.