Alkylation of deoxyribonucleic acid in vivo in various organs of C57BL mice by the carcinogens N-methyl-N-nitrosourea, N-ethyl-N-nitrosourea and ethyl methanesulphonate in relation to induction of thymic lymphoma. Some applications of high-pressure liquid chromatography.

1. Methods were developed for analysis of alkylpurines, O2-alkylcytosines, and representative phosphotriesters [alkyl derivatives of thymidylyl(3'-5')thymidine], in DNA alkylated in vivo, using high-pressure liquid chromatography. 2. The patterns of alkylation products in DNA in vivo at short times were closely similar to those found for reactions in vitro. Alkylation by the nitrosoureas was complete in vivo within 1 h, but with ethyl methanesulphonate was maximal at 2--4h. 3. The time course of persistence of alkylation products in vivo was determined for several tissues. In addition to the rapid loss of 3- and 7-alkyladenines reported previously for all tissues, a relatively rapid loss of O6-alkylguanines from DNA of liver was found which was more rapid at lower doses. In brain, lung and kidney, excision of O6-alkylguanine was much less marked, but was not entirely excluded by the data. In thymus, bone marrow and small bowel, all alkylated bases were lost with half-lives of 12--24h, at non-cytotoxic doses of alkylation. 4. No evidence for any marked excision of other minor products from alkylated DNA in vivo was found; thus 1-methyladenine, O2-ethylcytosine (found in appreciable amount only with N-ethyl-N-nitrosourea), 3-methylguanine, and dTp(Alk)dT persisted in alkylated DNA, including DNA of liver. 5. The induction of thymic lymphoma was determined over the range of single doses by intraperitoneal injection up to about 60% of the LD50 values, and related to the extent of alkylation of target tissues thymus and bone marrow. With N-methyl-N-nitrosourea over 90% tumour yield was attained at 60 mg/kg, and with N-ethyl-N-nitrosourea up to 52% at 240 mg/kg, but with ethyl methanesulphonate at up to 400 mg/kg only a few per cent of tumours were obtained. 6. The carcinogenic effectiveness of the agents was positively correlated with the extents of alkylation of guanine in DNA of target tissues at the O-6 atom. On the basis that at doses giving equal carcinogenic response these extents of alkylation would be equal, the chemical analyses showed that the ratio of equipotent doses to that for N-methyl-N-nitrosourea would be, for N-ethyl-N-nitrosourea, 5.3 for ethyl methanesulphonate about 21, and for methyl methanesulphonate [Frei & Lawley (1976) Chem.-Biol. Interact. 13, 215--222] about 144. These predictions were in reasonably good agreement with the observed dose-response data for these agents.     

2'' phosphomonoester, 3''-5'' phosphodiester bond at a unique site in a circular viral RNA.

Solanum nodiflorum mottle virus (SNMV) RNA2 is a single-stranded, covalently closed circular molecule. RNase T2 or nuclease P1 digests of this RNA contain a minor nucleotide of unusual chromatographic and electrophoretic mobility. This nucleotide is resistant to further digestion by T2 or P1 ribonucleases, or by alkali, but is sensitive to venom phosphodiesterase digestion. Alkaline phosphatase digestion yields a product which is RNase T2 and P1 sensitive. The products of these various digests show that the minor nucleotide is a ribonuclease-resistant dinucleotide carrying a 2' phosphomonoester group with the core structure C2'p3'p5'A. This dinucleotide is found in a unique RNase T1 product of SNMV RNA2, thus establishing a unique location in the sequence for the 2' phosphomonoester group at residue 49. Identical results have been obtained with a second related virus. The phosphomonoester group probably results from the RNA ligation event by which the molecules were circularised.     

The effect of (2''-5'') and (3''-5'') phosphodiester linkages on conformational and stacking properties of cytidylyl-cytidine in aqueous solution.

Conformational properties of (2'-5') and (3'-5') CpC have been determined by proton magnetic resonance spectroscopy at 220 MHz. The ribose ring structures are predominantly 3E with the exception of the ring from the 2'-phosphate fragment of C(2'-5')pC which exhibits an 2E pucker. Bases are oriented anti with respect to the ribose and the conformations about C4'-C5', C5'-O5', C3'-O3' (C2'-O2') are gg, g'g', and g+ in equilibrium g-, respectively. The dimers exist as mixtures of stacked (g+g+ and g-g- about the P-O(C) bonds) and unstacked species at 20 degrees C. Stacking is estimated to be 35% in both dimers.     

Inhibition of pancreatic ribonuclease by 2''-5'' and 3''-5'' oligonucleotides.

Forty different oligonucleotides were investigated as possible inhibitors of the depolymerizing activity of RNase A. The strongest inhibitors among the diribonucleoside 2'-5' mono- phosphates were: G2'-5'G, C2'-5'G and U2'-5'G, and among the diribonucleoside 3'-5' monophosphates: ApU, ApC and GpU. Of the eight trinucleotides investigated, ApApUp, ApApCp and ApGpUp were the strongest inhibitors. All four dinucleotides studied (ApUp, ApCp, GpUp and GpCp) were very strong inhibitors, ApUp being the strongest one. The results show that the nature of the various bases in the oligonucleotide has an effect on the degree of inhibition, and that the 3' phosphomonoester group increases the binding of the oligonucleotide to RNase A. These inhibitors can be used in physicochemical and biochemical studies of ribonuclease.     

Nitrosamine-induced carcinogenesis. The alkylation of nucleic acids of the rat by N-methyl-N-nitrosourea, dimethylnitrosamine, dimethyl sulphate and methyl methanesulphonate

1. N[(14)C]-Methyl-N-nitrosourea, [(14)C]dimethylnitrosamine, [(14)C]dimethyl sulphate and [(14)C]methyl methanesulphonate were injected into rats, and nucleic acids were isolated from several organs after various time-intervals. Radioactivity was detected in DNA and RNA, partly in major base components and partly as the methylated base, 7-methylguanine. 2. No 7-methylguanine was detected in liver DNA from normal untreated rats. 3. The specific radioactivity of 7-methylguanine isolated from DNA prepared from rats treated with [(14)C]dimethylnitrosamine was virtually the same as that of the dimethylnitrosamine injected. 4. The degree of methylation of RNA and DNA produced in various organs by each compound was determined, and expressed as a percentage of guanine residues converted into 7-methylguanine. With dimethylnitrosamine both nucleic acids were considerably more highly methylated in the liver (RNA, about 1% of guanine residues methylated; DNA, about 0.6% of guanine residues methylated) than in the other organs. Kidney nucleic acids were methylated to about one-tenth of the extent of those in the liver, lung showed slightly lower values and the other organs only very low values. N-Methyl-N-nitrosourea methylated nucleic acids to about the same extent in all the organs studied, the amount being about the same as that in the kidney after treatment with dimethylnitrosamine. In each case the RNA was more highly methylated than the DNA. Methyl methanesulphonate methylated the nucleic acids in several organs to about the same extent as N-methyl-N-nitrosourea, but the DNA was more highly methylated than the RNA. Dimethyl sulphate, even in toxic doses, gave considerably less methylation than N-methyl-N-nitrosourea in all the organs studied, the greatest methylation being in the brain. 5. The rate of removal of 7-methylguanine from DNA of kidneys from rats treated with dimethylnitrosamine was compared with the rate after treatment of rats with methyl methanesulphonate. No striking difference was found. 6. The results are discussed in connexion with the organ distribution of tumours induced by the compounds under study and in relation to the possible importance of alkylation of cellular components for the induction of cancer.     

Conformational studies of the smallest structural motifs of DNA detectable via vibrational circular dichroism: cytidylyl-(3''-5'')-guanosine and guanylyl-(3''-5'')-cytidine.

The infrared absorption and vibrational circular dichroism (VCD) spectra of buffered aqueous solutions of cytidylyl-(3'-5')-guanosine (5'(CG)3') and guanylyl-(3'-5')-cytidine (5'(GC)3') are reported. Under low ionic strength conditions, these dinucleotides exhibit VCD features that can be predicted qualitatively from structural data of (CG)2 and (GC)2 sequences of poly(dG-dC).poly(dG-dC), using the exciton model for infrared VCD intensities.     

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.     

Growth regulation of melanoma cells by interferon and (2''-5'')oligoadenylate synthetase.

We report that endogenous, as well as exogenous, interferon (IFN) regulates the growth of human melanoma cells in culture. When antibodies directed against human fibroblast IFN were incorporated into the media of high-density cells stimulated to proliferate with serum, the cells entered the cell cycle earlier than did the controls. In investigating the biochemical basis for this finding, we have found that there is an inverse relationship between the (2'-5')oligoadenylate synthetase levels and the percentage of cells in S in untreated cultures. Upon IFN treatment, the relationship is obliterated and (2'-5')oligoadenylate synthetase levels increase throughout all phases of the cell cycle. This increase in enzyme levels correlates well with the decreased probability of the IFN-treated cells to cycle. These findings suggest a biological role for IFN as a negative growth factor for cells in culture.     

The modified nucleosides of tRNAs. II. Synthesis of 2''-O-methylcytidylyl (3''-5'') cytidine.

The synthesis of 2'-O-methylcytidylyl (3'-5')cytidine by the triester method using as protecting groups, 2,2,2-trichloroethyl for phosphate hydroxyl group, p-chlorophenyoxyacetyl for 5-hydroxyl group, methoxymethylidene for 2',3'-cis-diol system, and benzoyl for the exo-amino group of cytidine is presented. The obtained product was characterised by UV, electrophoresis, chromatography and an enzymatic digestion.     

Nuclear magnetic resonance of nucleotide-amidates. Investigation of the secondary structure of methylester of deoxyadenylyl-(5''-3'')-deoxyadenylyl-(5'' leads to N)-L-phenylalanine.

The secondary structure of methyl ester of deoxyadenylyl- - (5' - 3') - deoxyadenylyl - (5' leads to N) - L-phenylalanine / L- PheOMe - d(pApA)/ was investigated using proton magnetic resonance. The folded conformation stabilized by hydrophobic interactions in aqueous solution was shown for this compound. The investigation of the chemical shifts of aromatic protons of L- PheoOMe - d(pApA) permitted us to construct the conformational model of this compound.     

Infrared CD of deoxy oligonucleotides. Conformational studies of 5''d(GCGC)3'', 5''d(CGCG)3'', 5''d(CCGG)3'', and 5''d(GGCC)3'' in low and high salt aqueous solution.

Infrared (vibrational) circular dichroism (VCD) spectra have been obtained for the self-complementary tetranucleotides, 5'd(CGCG)3', 5'd(GCGC)3', 5'd(CCGG)3', and 5'd(GGCC)3'. In buffered aqueous solution at low salt concentration, these tetramers exhibit spectra associated with right-handed polymers, although the spectra differ significantly for the four species. In high salt solution, a B-->Z transition occurs in 5'd(CGCG)3', while the other tetranucleotides appear only slightly altered. Temperature dependent studies of these oligonucleotides reveal a greater amount of thermal stability for the tetramers in low salt than for the high salt solutions. VCD intensities computed via the exciton formalism are compared with observed results.     

Elevated levels of (2''-5'')oligoadenylic acid polymerase activity in growth-arrested human lymphoblastoid Namalva cells.

(2'-5')Oligoadenylic acid [(2'-5')An] polymerase activity was measured in extracts of human lymphoblastoid cells of the Namalva line cultured under different conditions. Exponentially growing cells had a relatively low polymerase activity level, whereas cells grown to limit density showed elevated levels. When fresh medium was added to growth-arrested cells, (2'-5')An polymerase activity decreased concomitantly with the initiation of active deoxyribonucleic acid synthesis. An increase in polymerase activity level was also observed after exponentially growing cells were transferred from medium containing 20% serum to fresh medium containing 0.2% serum. These cells diminished deoxyribonucleic acid synthesis and remained quiescent until 20% serum was again added. Polymerase activity level decreased as the cells entered into S phase. The addition of the inhibitor of deoxyribonucleic acid synthesis, hydroxyurea, to exponentially growing cells did not increase polymerase level, indicating that cells blocked in S phase and at the G1-S boundary maintained the basal level of this enzyme. Degradation of labeled (2'-5')An was measured in extracts of Namalva cells cultured under different conditions, but no significant differences among degradative activities were observed. Since (2'-5')An polymerase activity is one of the enzymatic activities induced by interferon, we measured interferon titers in Namalva cell medium. Less than 1 reference unit per ml was detected in cells grown under different conditions. Moreover, the increase in (2'-5')An polymerase activity level in cells transferred from 20 to 0.2% serum was not prevented by including anti-lymphoblastoid interferon antibody in the medium. These results suggest that the activity level of (2'-5')An polymerase is regulated in Namalva cells on the basis of the growth status of the cells and that this regulatory mechanism is apparently not activated by interferon.     

Nitrosamine-induced carcinogenesis. The alkylation of N-7 of guanine of nucleic acids of the rat by diethylnitrosamine, N-ethyl-N-nitrosourea and ethyl methanesulphonate

1. The extent of ethylation of N-7 of guanine in the nucleic acids of rat tissue in vivo by diethylnitrosamine, N-ethyl-N-nitrosourea and ethyl methanesulphonate was measured. 2. All compounds produced measurable amounts of 7-ethyl-guanine. 3. A single dose of diethylnitrosamine or N-ethyl-N-nitrosourea produced tumours of the kidney in the rat. Three doses of ethyl methanesulphonate produced kidney tumours, but a single dose did not. 4. A single dose of diethylnitrosamine produced twice as much ethylation of N-7 of guanine in DNA of kidney as did N-ethyl-N-nitrosourea. A single dose of both compounds induced kidney tumours, although of a different histological type. 5. A single dose of ethyl methanesulphonate produced ten times as much ethylation of N-7 of guanine in kidney DNA as did N-ethyl-N-nitrosourea without producing tumours. 6. The relevance of these findings to the hypothesis that alkylation of a cellular component is the mechanism of induction of tumours by nitroso compounds is discussed.     

Low frequency of (5''-3'') -C-G- connection in 70S RNA from simian sarcoma virus.

The frequency of oligonucleotides obtained from simian sarcoma virus RNA by digestion with ribonuclease T1 was compared with the frequency expected of an RNA molecule in which nucleotides are arranged in random distribution. Oligonucleotides containing C-residue attached to 3'-Gp were found significantly less in simian sarcoma virus 70S RNA than expected by random distribution.     

A conformational study of adenylyl-(3'',5'')-adenosine and adenylyl-(2'',5'')-adenosine in aqueous solution by carbon-13 magnetic resonance spectroscopy.

The solution conformation of adenylyl-(3',5')-adenosine and adenylyl-(2',5')-adenosine in both the stacked and unstacked states was studied by carbon-13 magnetic resonance spectroscopy. Large chemical shift differences between the base carbons in the dimers and those in the corresponding monomers are attributed in part to the influence of base-base interaction. Carbon-phosphorus couplings across three bonds revealed the preferred populations for certain backbone rotamers, demonstrating that significant changes in conformation about the "c(3')-O and C(5')-O bonds do not occur in the temperature or salt-induced unstacking of adenylyl-(3',5')-adenosine. However, rotations about the C(2')-O and C(5')-O bonds occur in the temperature-mediated unstacking of adenylyl-(2',5')-adenosine.     

Reaction products from N-methyl-N-nitrosourea and deoxyribonucleic acid containing thymidine residues. Synthesis and identification of a new methylation product, O4-methyl-thymidine

1. DNA was treated with N-methyl-N-nitrosourea at pH7-8, 37 degrees C, degraded to yield 3- and 7-methylpurines and deoxyribonucleosides and the reaction products were separated by chromatography on ion-exchange resins. The following methods for identification and determination of products were used: with unlabelled N-methyl-N-nitrosourea, u.v. absorption; use of methyl-(14)C-labelled N-methyl-N-nitrosourea and use of [(14)C]thymine-labelled DNA. 2. The synthesis of O(4)-methylthymidine and its identification by u.v. and mass spectroscopy are reported. 3. 3-Methylthymidine and O(4)-methylthymidine were found as methylation products from N-methyl-N-nitrosourea with thymidine and with DNA, in relatively small yields. Unidentified products containing thymine were found in enzymic digests of N-methyl-N-nitrosourea-treated DNA, which may be phosphotriesters. 4. The possible role of formation of methylthymines in mutagenesis by N-methyl-N-nitrosourea is discussed.     

Heterogeneous nuclear RNA promotes synthesis of (2'',5'')oligoadenylate and is cleaved by the (2'',5'')oligoadenylate-activated endoribonuclease.

Heterogeneous nuclear RNA contains double-stranded regions that are not found in mRNA and that may serve as recognition elements for processing enzymes. The double-stranded regions of heterogeneous nuclear RNA prepared from HeLa cells promoted the synthesis of (2',5')oligoadenylate [(2',5')oligo(A) or (2'5')An] when incubated with (2',5')An polymerase. This enzyme is present in elevated levels in interferon-treated cells, and labeled heterogeneous nuclear RNA incubated with extracts of these cells is preferentially cleaved, since mRNA included in the same incubations is not appreciably degraded. The cleavage of heterogenous nuclear RNA is caused by the synthesis of (2'5')An and by a "localized" activation of the (2',5')An-dependent endonuclease, since it was enhanced by ATP, the substrate of the (2',5')An polymerase, and inhibited by 2'-dATP and ethidium bromide. Both of these compounds suppress the synthesis of (2',5')An, the first by competitive inhibition and the latter by intercalating into double-stranded RNA. The possible role of double-stranded regions and of the (2',5')An polymerase-endonuclease system in the processing of heterogeneous nuclear RNA is discussed.     

The 3''-5'' exonuclease of DNA polymerase I of Escherichia coli: contribution of each amino acid at the active site to the reaction.

We have used site-directed mutagenesis to change amino acid side chains that have been shown crystallographically to be in close proximity to a DNA 3' terminus bound at the 3'-5' exonuclease active site of Klenow fragment. Exonuclease assays of the resulting mutant proteins indicate that the largest effects on exonuclease activity result from mutations in a group of carboxylate side chains (Asp355, Asp424 and Asp501) anchoring two divalent metal ions that are essential for exonuclease activity. Another carboxylate (Glu357) within this cluster seems to be less important as a metal ligand, but may play a separate role in catalysis of the exonuclease reaction. A second group of residues (Leu361, Phe473 and Tyr497), located around the terminal base and ribose positions, plays a secondary role, ensuring correct positioning of the substrate in the active site and perhaps also facilitating melting of a duplex DNA substrate by interacting with the frayed 3' terminus. The pH-dependence of the 3'-5' exonuclease reaction is consistent with a mechanism in which nucleophilic attack on the terminal phosphodiester bond is initiated by a hydroxide ion coordinated to one of the enzyme-bound metal ions.