Conformational and electronic properties of the two cis (5S,6R) and (5R,6S) diastereoisomers of 5,6-dihydroxy-5,6-dihydrothymidine: X-ray and theoretical studies.

The structure of (+)-cis-(5S,6R)-5,6-dihydroxy-5,6-dihydrothymidine was obtained using X-ray crystallography [space group P2(1) with a = 10.130(3) angstroms, b = 6.434(9) angstroms, c = 11.02(5) angstroms, and beta = 112.646(2) angstroms]. The comparison of the two cis diastereoisomers of thymidine glycol (I, II) showed several structural and conformational differences. The solid state structures appear to be in agreement with the results of 1H NMR studies which were carried out in aqueous solution. Conformational and electronic properties of the ground state of the molecules I and II were obtained using ab initio LSD-DFT theory. Only slight differences between the crystal structure and the optimized geometry are observed for each of the two oxidized nucleosides. On the other hand, molecules I and II exhibit significant differences in their electronic properties. In particular, the dipole moment of (5S,6R)-thymidine glycol (I) is twice smaller than that of the (5R,6S) diastereoisomer (II). It is noteworthy that these differences in the electronic properties between the two compounds may be related to changes in the rotameric population around the C4'-C5' bond. The repartition of the electrostatic potential is different in the two compounds. These observations lead to a better understanding of the structural changes when the above lesions are included within a DNA molecule.

Measurement of pyrimidine (6-4) photoproducts in DNA by a mild acidic hydrolysis-HPLC fluorescence detection assay.

Pyrimidine (6-4) pyrimidone photoproducts constitute one of the major classes of DNA lesions induced by far-UV irradiation. However, their biological role remains difficult to assess partly because of the lack of a specific and sensitive assay for monitoring their formation in DNA. Here is presented a measurement method based on the release of the (6-4) base adducts from DNA followed by an HPLC separation associated with a sensitive and specific fluorescence detection. The quantitative and mechanistic aspects of the chemical hydrolysis, based on the use of hydrogen fluoride stabilized in pyridine, were investigated, using dinucleoside monophosphate (6-4) photoproducts as model compounds. The final hydrolysis products were isolated and characterized by UV, fluorescence, mass, and 1H NMR spectroscopies. Application of the assay to far-UV irradiated calf thymus DNA provided information on the sequence effect on the rate of formation of three of the four possible bipyrimidine (6-4) photoproducts.

Characterization of the cis-syn and cis-anti diastereoisomers of 5-methoxypsoralen pyrone-side monocycloadducts to thymidine.

The photoreaction of 5-methoxypsoralen (5-MOP) with thymidine as a DNA model compound was investigated under dry-state conditions. In this respect, a thin film of thymidine and 5-MOP in a ratio 10:1 was exposed to 350-nm UV light. Four [2 + 2] photocycloadducts were isolated in a 0.5-2.2% yield with respect to 5-MOP by HPLC and characterized as two pairs of cis-syn and cis-anti diastereoisomers, respectively, on the basis of extensive spectroscopic measurements, including UV, fast atom bombardment mass spectrometry, 1H and 13C NMR, and CD. Information concerning the absolute configuration of the four photocycloadducts was inferred from detailed nuclear Overhauser enhancement experiments. This is indicative of a 3R,4S,5R,6S and a 3S,4R,5S,6R configuration for the cis-anti cycloadducts and a 3S,4R,5R,6S) and a 3R,4S,5S,6R configuration for the cis-syn cycloadducts. In addition, conformational features of the four photocycloadducts were obtained from consideration of various 1H NMR measurements including NOE data.

Furan-side pyridopsoralens monoadducts to the thymine moiety of DNA.

Isolation of the main cycloadducts formed in DNA by the UV-A (ultraviolet light of class A) photoreaction of 7-methyl-pyrido[3,4-c]psoralen (MePyPs) and 7-methyl-pyrido[4,3- c]psoralen (2N-MePyPs) was achieved by HPLC separation subsequent to enzymatic hydrolysis of DNA. The photoadducts have been quantified and their chemical structure assigned on the basis of spectroscopic measurements, including absorption and fluorescence spectroscopy, and circular dichroism as well as mass spectrometry analysis. They all present characteristics which are consistent with furan-side monoadducts resulting from a C4-cycloaddition of the psoralens to thymidine. The two major MePyPs-thymidine monoadducts formed in DNA exhibit a diastereoisomeric relationship and are likely to have a cis-syn stereochemistry.

Photochemistry of nucleic acids in cells.

A survey of the recent aspects of the main photoreactions induced by far-UV radiation in cellular DNA is reported. This mostly includes the formation of cyclobutadipyrimidines, pyrimidine(6-4)pyrimidone photoadducts and related Dewar valence isomers in various eukaryotic and prokaryotic cells, as monitored by using either specific or more general assays. Information is also provided on mechanistic aspects regarding the formation of 5,6-dihydro-5-(alpha-thyminyl) thymine, the so-called "spore photoproduct" within far-UV-irradiated bacterial spores. The second major topic of the review deals with the effects of near-UV radiation and visible light on cellular DNA which are mostly mediated by photosensitizers. The main photoreactions of furocoumarins with DNA, one major class of photosensitizers used in the phototherapy of skin diseases, involve a [2 + 2] cycloaddition to the thymine bases according to an oxygen-independent mechanism. In contrast a second type of photosensitized reaction which appears to play a major role in the genotoxic effects of both near-UV and visible light requires the presence of oxygen. The photodynamic effects which are mediated by either still unidentified endogenous photosensitizers or defined exogenous photosensitizers lead to the formation of a wide spectrum of DNA modifications including base damage, oligonucleotide strand breaks and DNA-protein cross-links.

The Dewar valence isomer of the (6-4) photoadduct of thymidylyl-(3'-5')-thymidine monophosphate: formation, alkaline lability and conformational properties.

The formation of the Dewar valence isomer of the pyrimidine(6-4)pyrimidone photoadduct of thymidylyl-(3'-5')-thymidine monophosphate (TpT) was investigated under different irradiation conditions. This photoproduct was generated on exposure of TpT to far-UV radiation. However, no detectable amount of the Dewar isomer or its precursor (pyrimidine(6-4)pyrimidone photoadduct) was observed following acetone photosensitization of TpT. The Dewar valence isomer was much more unstable than the pyrimidine(6-4)pyrimidone photoproduct when treated with hot piperidine. A detailed conformational analysis of the TpT Dewar isomer photoproduct is reported as inferred from extensive one- and two-dimensional 300 and 620 MHz proton nuclear magnetic resonance (1H NMR) measurements and molecular mechanics calculations.

Formation of cyclobutane thymine dimers photosensitized by pyridopsoralens: quantitative and qualitative distribution within DNA.

As after irradiation with 254-nm UV light, exposure of thymidine and three isomeric pyridopsoralen derivatives to UVA radiation, in the dry state, leads to the formation of the six diastereomers of cyclobutadithymidine as the predominant reaction. This unexpected photosensitized reaction, which also gives rise to both 5R* and 5S* diastereomers of 5,6-dihydro-5-(alpha-thymidylyl)thymidine (or "spore" photoproduct), is selective since [2 + 2] dimerization of 2'-deoxycytidine was not detected under the same experimental conditions. The cis-syn isomer of cyclobutadithymine was also found to be produced within isolated DNA following UVA irradiation in aqueous solutions containing 7-methylpyrido[3,4-c]psoralen. Quantitatively, this photoproduct represents about one-fifth of the overall yield of the furan-side pyridopsoralen [2 + 2] photocycloadducts to thymine. DNA sequencing methodology was used to demonstrate that pyridopsoralen-photosensitized DNA is a substrate for T4 endonuclease V and Escherichia coli photoreactivating enzyme, two enzymes acting specifically on cyclobutane pyrimidine dimers. Furthermore, the dimerization reaction of thymine is sequence dependent, with a different specificity from that mediated by far-UV irradiation as inferred from gel sequencing experiments. Interestingly, adjacent thymine residues are excellent targets for 7-methylpyrido[3,4-c]psoralen-mediated formation of cyclobutadithymine in TTTTA and TTAAT sites, which are also the strongest sites for photoaddition. The formation of cyclobutane thymine dimers concomitant to that of thymine-furocoumarin photoadducts and their eventual implication in the photobiological effects of the pyridopsoralens are discussed.

Identification of the two cis-syn [2 + 2] cycloadducts resulting from the photoreaction of 3-carbethoxypsoralen with 2'-deoxycytidine and 2'-deoxyuridine.

Near-ultraviolet photolysis of 2'-deoxycytidine (dCyd) and 3-carbethoxypsoralen (3-CPs) in the dry state was found to generate two main stable photoadducts which were separated by thin-layer and high-performance liquid chromatography. Fast atom bombardment and plasma desorption mass spectrometry analyses suggested that the bound molecule to 3-CPs is dCyd. These two compounds were found to produce the corresponding 2'-deoxyuridine (dUrd) derivatives through a deamination process when left in aqueous solutions with a lifetime close to 24 h at 20 degrees C. The chemical structure of the deaminated photoadducts was confirmed by photochemical synthesis using dUrd as the substrate. UV and fluorescent measurements indicated that the furan moiety of 3-CPs is involved in the photobinding reaction. The cyclobutane type structure of the modified dUrd derivatives was established on the basis of its photoreversibility and detailed 1H NMR analysis. The cis-syn stereoconfiguration of the two photocycloadducts was inferred from coupling constant considerations and on the basis of the complete assignment of the cyclobutyl protons, requiring the synthesis of deuterated nucleosides at pyrimidine carbon C(6). Further confirmation of the diastereoisomeric relationship between the two cis-syn dUrd <54' 65'> 3-CPs was provided by circular dichroism measurements.

Plasma desorption mass spectrometric study of UV-induced lesions within DNA model compounds.

Positive and negative plasma desorption (PD) mass spectra of the di-deoxyribonucleoside monophosphate d(TpT) and of its biologically relevant ultraviolet-induced intramolecular photodimers are examined and discussed. The photodimers which were analysed by PD mass spectrometry include the cis-syn and trans-syn cyclobutyl isomers d(T[p]T), the pyrimidine-pyrimidone photoadduct (6-4)d(TpT) and its Dewar valence isomer. Molecular ions, quasi-molecular ions and several fragment ions are observed in all cases. It is shown that, despite the absence of mass differences between these dinucleoside monophosphates, the fragmentation pattern differs significantly between the two main classes: cyclobutane dimers and (6-4) adducts. PD mass spectrometry can therefore be envisaged for characterizing their formation within short DNA fragments.

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.

Nuclear magnetic resonance studies of cis-syn, trans-syn, and 6-4 photodimers of thymidylyl(3'-5')thymidine monophosphate and cis-syn photodimers of thymidylyl(3'-5')thymidine cyanoethyl phosphotriester.

Three out of four possible photodimers of thymidylyl(3'-5')thymidine monophosphates (i.e., cis-syn, 6-4, and one of the trans-syn) and two structural isomers (i.e., R and S forms) of cis-syn-thymidylyl(3'-5')thymidine cyanoethyl phosphotriester have been isolated and purified from the reaction mixtures after UV irradiation and studied by multinuclear magnetic resonance Spectroscopy. All five inter thymine base linked photodimers have grossly similar structures which are quite different from those of the parent thymidylyl(3'-5')thymidine. The base of Tp- is in the syn conformation, and that of -pT it is in the anti conformation. The sugar puckering of Tp- is dominated by the 2E conformer, but in -pT it is in 4E; except for the conformer around C5'-O5' bond, the 6-4 isomer is very similar to those of cis-syn and trans-syn conformation. As expected, there are sugar-phosphate backbone distortions in the phosphotriesters, due to the neutralization of the negative charge of the phosphate. In general the structures of all five photodimers are very close to those of the cis-syn photodimer of thymidylyl(3'-5')thymidine monophosphate cyanoethyl ester as studied by X-ray diffraction [Cadet, J., Voituriez, L., Hruska, F. E., & Grand, A. (1985) Biopolymers 24, 897-903; Hruska, F. E., Voituriez, L., Grand, A., & Cadet, J. (1986) Biopolymers 25, 1401-1417]. While the trans-syn photodimer has two structural isomers, only one [C6(of Tp-)-R] was produced by the UV irradiation and studied.

Quantitative measurement of the diastereoisomers of cis thymidine glycol in gamma-irradiated DNA.

A technique for determining the relative content of each of the diastereoisomers of cis thymidine glycol (dTG) in DNA exposed to ionizing radiation has been developed. [3H]thymidine DNA was gamma-irradiated, digested to 2'-deoxyribonucleosides, authentic [14C] (+, -) cis dTG added to the digestate and the mixture resolved by HPLC. 3H fractions coeluting with [14C] (+, -) dTG were collected and acetylated. The acetoxy derivatives of (+) and (-) cis dTG were easily resolved by a second HPLC analysis and their absolute configuration determined by NMR and mass spectroscopies. We have constructed a dose-response curve for formation of each isomer in gamma-irradiated DNA and shown that they are formed in equal amounts. This technique may be used to determine the relative formation of cis dTG isomers in DNA resulting from other oxidative stresses and whether repair of these is influenced by their configuration.

Chemical structure of 3-carbethoxypsoralen-DNA photoadducts.

The enzymatic digest from salmon sperm DNA photochemically modified by the monofunctional 3-carbethoxypsoralen was analyzed by high-performance liquid chromatography. The modified nucleosides extracted from DNA were compared with model compounds obtained from irradiation in the dry state of mixtures of 3-carbethoxypsoralen with 2'-deoxyribonucleosides whose chemical structures had previously been characterized. The main photoadducts formed in DNA are two cis-syn diastereoisomers formed via a C4-cycloaddition reaction involving the 4', 5' double bond of 3-carbethoxypsoralen and the 5,6 double bond of 2'-deoxythymidine. Among them, the most polar one accounts for 72%. Under the same conditions, photoadducts formed between 3-carbethoxypsoralen and 2'deoxycytidine account for less than 1%.

Isolation and characterization of psoralen photoadducts to DNA and related model compounds.

The main products of the photoreaction of 3-carbethoxypsoralen and 8-methoxypsoralen with 2'-deoxyribonucleosides have been isolated and characterized by various spectroscopic measurements involving proton nuclear magnetic resonance and mass spectrometry (fast atom bombardment and 252Cf plasma desorption techniques). Near ultraviolet photolysis of frozen aqueous solutions of thymidine containing 3-carbethoxypsoralen gives rise to two furan-side photocycloadducts having cis-syn stereochemistry. The corresponding thymine mean value of 3-carbethoxy-psoralen monoadduct has been shown to be the major photoproduct in DNA. The main cis-syn diastereoisomeric [2+2] photocycloadducts which arise from the photoreaction of 8-methoxypsoralen and thymidine in frozen aqueous solutions were shown to involve either the 4',5' furan ring or the 3,4 pyrone moiety and the 5,6-pyrimidine bond. Photobinding of 8-methoxypsoralen to 2'-deoxyadenosine also occurs, with covalent bond formation between carbon 3 or 4 of the pyrone ring and the sugar moiety of the nucleoside.