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.     

SOME PROPERTIES OF THE TRIPLET EXCITED STATE OF THE PHOTOSENSITIZING FUROCOUMARIN: 3-CARBETHOXYPSORALEN

Abstract— 3-Carbethoxypsoralen (3-CPs) has been tested in the photochemotherapy of psoriasis. It only forms monoadducts with DNA and is being considered as a non-carcinogenic alternative to 8-MOP which itself forms DNA crosslinks that arc difficult to repair. Using laser flash photolysis or pulse radiolysis, the triplet state of 3-CPs, a possible intermediate in photosensitization, has been generated in several solvents: ethanol, water and benzene. The triplet lifetime, extinction coefficient and quantum efficiency of formation have been measured. Triplet reactivities towards (i) the solvents used, (ii) 3-CPs, (iii) oxygen, (iv) tryptophan and (v) tyrosine, leading, respectively, to photoadditions with water, ethanol and 3-CPs, to ¹O₂, semioxidized tryptophan and semioxidized tyrosine, (vi) thymine and (vii) uracil have been investigated. The dark binding of 3-CPs to DNA has been studied by comparing the reactivity of e_aq^- with free 3-CPs, free DNA and the 3-CPs DNA complex. Some photophysical and photochemical properties of 4',5'di-hydro-3-carbethoxypsoralen(DH–3-CPs), model of the main fluorescent photo-product of 3-CPs, have also been investigated. Biological consequences of the photochemical properties of 3-CPs andDH–3-CPs have been studied in a cellular system (haploid yeast).     

New aspects of the repair and genotoxicity of psoralen photoinduced lesions in DNA.

Several approaches are described aiming at a better understanding of the genotoxicity of psoralen photoinduced lesions in DNA. Psoralens can photoinduce different types of photolesions including 3,4- and 4',5'-monoadducts and interstrand cross-links, oxidative damage (in the case of 3-carbethoxypsoralen (3-CPs)) and even pyrimidine dimers (in the case of 7-methylpyrido(3,4-c)psoralen (MePyPs)). The characterization and detection of different types of lesions has been essential for the analysis of their possible contributions to genotoxicity. For example, oxidative damage photoinduced by 3-CPs can be detected by the formamidopyrimidine glycosylase (FPG) protein. Furthermore, it is shown how the presence of MePyPs induced monoadducts may interfere with the photoreactivation of concomitantly induced pyrimidine dimers, how the ratio of monoadducts and interstrand cross-links (CL) affects the occurrence of double-strand breaks during the repair of photolesions and genotoxicity. In vitro treatment of yeast plasmids, followed by transformation, also indicates that the repair of photoadducts on exogenous DNA differs for 8-methoxy-psoralen (8-MOP) induced mono- and diadducts and for monoadducts alone. The recombinational rad52 dependent pathway is not needed for the repair of 8-MOP induced monoadducts. The results obtained suggest that the genotoxic effects of psoralens are conditioned by the nature, number, ratio and sequence distribution of the photolesions induced in DNA.     

SOME PHOTOPHYSICAL PROPERTIES OF 3-CARBETHOXYPSORALEN, 8-METHOXYPSORALEN and 5-METHOXYPSORALEN TRIPLET STATES

Abstract Triplet absorption spectra, extinction coefficients (ɛ_T), decay rates ( K ₁), oxygen quenching rates (k_q) and intersystem crossing yields (φ_T) for 3-carbethoxypsoralen (3-CPs). 8-methoxypsoralcn (8-MOP) and 5-methoxypsoralen (5-MOP) in methanol are reported. For 8-MOP and 3-CPs corresponding values are also reported with water as the solvent. Some photophysical data are also reported for 5-MOP in water, but ɛ_T and φ_T were not obtained.
The phosphorescence spectra for these furocoumarin derivatives in ethanol at 77 K are reported together with the corresponding lowest triplet energy and lifetime. The values of the various photophysical properties obtained are compared with values reported by previous workers.     

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.     

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.     

GEOMETRY OF INTERCALATION OF PSORALENS IN DNA APPROACHED BY MOLECULAR MECHANICS*

The results of molecular mechanical calculations on intercalation complexes of 3-carbethoxypsoralen, 5-methoxypsoralen, 8-methoxypsoralen, 7-methylpyrido[3,4-c]psoralen (MepyPs) and 7-methylpyrido[4,3-c]psoralen (2N-MePyPs) with the double stranded duodecanucleotide d(CGCGATATCGCG)2 are presented. In the energy-minimized structures, the psoralens are intercalated with their plane orthogonal to the helix axis. Stacking interactions between the furan ring of the psoralen and the adjacent bases are maximized in most derivatives studied, whereas the effect of the various substituents of the psoralen ring is to specifically push part of the molecule towards either the minor or the major groove, preventing a symmetrical intercalation (with respect to the two strands of the DNA). The relative position of the psoralen ring and of the adjacent thymine foreshadows the formation of furan-side monoadducts in 3-CPs, MePyPs and 2N-MePyPs, whereas the formation of a pyrone-side monoadduct appears as geometrically more favourable in 5-MOP and both furan- and pyrone-side monoadducts can be geometrically envisaged in 8-MOP. A good correlation therefore exists between the more or less favourable equilibrium geometries and the experimentally observed photoreactions. The present study is the first attempt to characterize the geometrical parameters as part of a complex set of geometrical, dynamical and excited state parameters governing the overall DNA-psoralen photoreaction.     

PHOTOREACTION OF 8-METHOXYPSORALEN WITH THYMIDINE

Abstract— The photoreaction of 8-methoxypsoralen (8-MOP) with thymidine in solid film state yielded two 4', 5'-monoadducts (a pair of diastereomers) and three 3,4-monoadducts. The stereochemistry of two 4', 5'-monoadducts was found to be cis-syn and trans-syn and one 3,4-monoadduct was cis-anti. In addition to these monoadducts, 3,4-, 4', 5'-biadducts were also formed during the reaction, but the isolation of each isomer of these adducts was not successful; however, the formation of these biadducts was confirmed by UV, IR, TLC and photosplitting experiments.     

3-CARBETHOXYPYRANOCOUMARIN, A PHOTOREACTIVE DERIVATIVE OF XANTHYLETIN WITH INTERESTING PHOTOBIOLOGICAL PROPERTIES

Abstract— The photobiological activity of the newly synthesized pyranocoumarin derivative 3-carbethoxypyranocoumarin, so-called 3-carbethoxyhomopsoralen (3-CHPs) was studied in comparison to the known bifunctional furocoumarin 8-methoxypsoralen {8-MOP) and to the monofunctional furocoumarin 3-carbethoxypsoralen (3-CPs) in the presence of 365 nm irradiation using two eukaryotic cell systems, the yeast Saccharomyces cerevisiae and cultured normal human skin fibroblasts. 3-Carbethoxyhomopsoralen is shown to be a photobiologically active compound capable of effectively photoinducing cytoplasmic "petite" mutants (mitochondrial damage), nuclear reversions and mitotic gene conversion in the diploid yeast strain D₇. Per unit dose it is more effective than 8-MOP and 3-CPs for the induction of cytoplasmic "petite" mutants but less effective than 8-MOP for the induction of nuclear reversions and mitotic gene conversion. A very moderate effect on cell survival is accompanied by a relatively strong genetic activity per viable cell. In human fibroblasts 3-CHPs produces a stronger inhibition of DNA synthesis than 8-MOP and 3-CPs at low doses of 365 nm radiation. During post-treatment incubation human fibroblasts recovered more easily from DNA synthesis and growth inhibitions photoinduced by 3-CHPs than from those photoinduced by 8-MOP. The results are in accord with the notion that 3-CHPs is a highly photoreactive monofunctional compound inducing easily repairable lesions with a low lethal but significant mutagenic potential.     

STRUCTURE OF 3-CARBETHOXYPSORALEN PHOTOLYSIS PRODUCTS

Abstract— Upon UV-A irradiation(320–400 nm), the photorcaction of psoralens either with a solvent molecule or with a second psoralen molecule competes with the well-known photoaddition of psoralens to DNA. In the present study, a structural assignment of the 3-carbethoxypsoralen (3-CPs) photolysis products is proposed on the basis of their chromatographic (high performance liquid chromatography) and of their spectroscopic (absorption, fluorescence, mass spectrometry and ¹H Nuclear Magnetic Resonance) properties. Four photolysis products have been isolated and identified. The first one results from a water molecule addition on the 4',5' double bond of 3-CPs, the second from an ethanol molecule addition on the 4',5' double bond. Two cyclobutane type dimers of 3-CPs have also been characterized. These results confirm that, in protic solvents, the furan(4',5') double bond of 3-CPs is more photoreactive than the pyrone(3,4) double bond.     

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 PHOTOREACTIONS OF 8-METHOXYPSORALEN WITH TRYPTOPHAN AND LENS PROTEINS*

Abstract— We have previously demonstrated that 8-methoxypsoralen (8-MOP) can be found in the lenses of rats injected (i.p.) with this drug, and that its presence can lead to a photosensitized enhancement of lenticular fluorescence. The cutaneous photosensitizing properties of psoralens are thought to be mediated via their excited triplet states, resulting in photoaddition cyclobutane products between pyri-midine bases and 8-MOP. We have now investigated the possibility that similar types of photoadducts could be generated between 8-MOP and the aromatic amino acid residues in lens proteins. Our experiments involved in vitro irradiation (at 360 nm) of aqueous solutions of 0.1 mM 8-MOP plus purified alpha, beta, or gamma crystallins from calf or normal human (under 20 years of age) lenses. UV absorption and fluorescence emission spectra were measured before and after radiation, and aliquots from all experiments were frozen and kept in the dark for subsequent phosphorescence and EPR spectroscopy. Similar experiments were performed with irradiated aqueous solutions of tryptophan or thymine plus 8-MOP. All controls consisted of solutions kept in the dark. NMR spectra demonstrated that the hydrogen atoms at the 3,4 and 4',5' positions of the 8-MOP molecule were lost following irradiation, suggesting that these two sites were involved in the photoproduct formed between tryptophan and 8-MOP. These studies strongly suggest that 8-MOP is capable of forming photoaddition products with tryptophan and with lens proteins as well as DNA in vivo, resulting in its permanent retention within the ocular lens.     

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.     

HPLC ANALYSIS OF 4'',5''-MONOADDUCT FORMATION IN CALF THYMUS DNA and SYNTHETIC POLYNUCLEOTIDES TREATED WITH UVA and 8-METHOXYPSORALEN

Abstract— 8-methoxypsoralen monoadduct formation in calf thymus DNA irradiated with subbands of ultraviolet A light has been quantitated by HPLC analysis of the enzymatic hydrolysates of the DNA. Normalization of the yield of monoadducts for the variation in source output and the absorptivity of 8-MOP at each of the irradiating wavelengths showed that the 4',5'-furan monoadduct was the principal photoproduct and the efficiency of its formation was independent of irradiating wavelength. Synthetic polynucleotides irradiated with ultraviolet A light demonstrated a base composition and sequence dependence for 8-MOP photoreactivity: (poly(dAdT.dAdT) > poly(dA.dT) > poly(dGdC.dGdC) in both the B and Z forms > pofy(dT).     

NMR ANALYSES OF TRYPTOPHAN-8-METHOXYPSORALEN PHOTOREACTION PRODUCTS FORMED IN THE PRESENCE OF OXYGEN

Proton-made spectroscopy was performed on solutions of l -tryptophan and 8-mcthoxypsoralen (8-MOP) in either D₂O or DMSO-d₆ in the presence of oxygen before and after irradiation with 360 nm monochromatic light. Irradiation results in the loss of hydrogen atoms at the 3. 4 and 4'. 5' positions of 8-MOP and at the indole C₂ position of tryptophan. Changes in the aliphatic regions of the spectra also occur with irradiation. It is postulated that generation of photoreaction products between 8-MOP and tryptophan involves the 3.4 and 4'.5' positions of 8-MOP and the imidazole moiety of tryptophan.
Reprint requests to: Dr J. Megaw, Laboratory for Ophthalmic Research, Emory University School of Medicine, Atlanta. Georgia 30322. USA.     

4,4'',6-TRIMETHYLANGELICIN, A NEW VERY PHOTOREACTIVE AND NON SKIN-PHOTOTOXIC MONOFUNCTIONAL FUROCOUMARIN

Abstract— 4,4',6-Trimethylangelicin is a new monofunctional furocoumarin which appears to be a very promising potential agent for the photochemotherapy of psoriasis. Actually, it is capable of photoreacting with DNA to a large extent (four times more than 8-MOP), forming only monoadducts; it produces singlet oxygen to an insignificant extent. Its antiproliferative effect (tested in Ehrlich ascites tunior cells) appears to be several times higher than that induced by the most active angelicins now known and by 8-MOP itself. In spite of this high photosensitized effect, 4,4',6-trimethylangelicin seems to be non-phototoxic on guinea-pig skin and much less mutagenic than 8-MOP in E. coli WP2 uvr -A, a strain in which cross-links show lethality rather than mutations.     

4'-AMINOMETHYL-4,5',8-TRIMETHYLPSORALEN PHOTOCHEMISTRY THE EFFECT OF CONCENTRATION AND UVA FLUENCE ON PHOTOADDUCT FORMATION IN POLY(dAdT) AND CALF THYMUS DNA

Abstract-The photochemistry of 4'-aminomethyl-4,5',8-trimethylpsoralen (AMT) with poly(dA-dT) and calf thymus DNA was studied. The extent of photoadduct formation and the distribution of photoadducts (3,4– and 4',5'-monoadducts and crosslinks) were determined by liquid scintillation analysis and HPLC, respectively. The adducts were characterized on the basis of their UV absorption spectra and mass spectral analysis. The high DNA binding constant for AMT (1.5 x 10⁵ M⁻¹ ) led to a high fraction of intercalated molecules, which contributed to the high level of AMT photoadduct formation, as many as 102 adducts per kilobase pair. In addition, there is a distinct difference in the adduct distribution compared to the previously studied 8-methoxypsoralen (8-MOP). Under the conditions employed for the photochemical studies, virtually all of the AMT molecules in solution are intercalated, occupying 25% of the base pair sites. Under similar conditions, 8-MOP molecules occupied 10 times fewer sites. Thus, for AMT, DNA base pair sites other than 5'TA, the well-characterized strong binding for psoralens in general, are an additional target for photomodification, which results in the formation of a higher percentage of monoadducts. The proportion of photoadducts formed was virtually independent of AMT concentration and UVA (320–400 nm radiation) fluence.     

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.     

SINGLET OXYGEN FORMATION BY SENSITIZATION OF FUROCOUMARINS COMPLEXED WITH, OR BOUND COVALENTLY TO DNA

Abstract— The formation of singlet molecular oxygen (¹O₂) by sensitization of the furocoumarins 5-methoxypsoralen (5-MOP), 8-methoxypsoralen (8-MOP) and psoralen complexed with DNA was investigated. From the results it is concluded that 5-MOP complexed with native DNA is able to generate ¹O₂, even in a larger extent than 5-MOP free in solution. Also, with 8-MOP and especially with psoralen, ¹O₂ formation by the complexed compound could be observed. The ¹O₂ formation sensitized by covalently bound furocoumarin was demonstrated with psoralen as a model compound. 4',5'-Dihydropsoralen, a model compound for the UVA light absorbing 4',5'monoadducts of furocoumarins to DNA, is also able to generate ¹O₂.     

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.