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Query: UNIPROT:P06889 (Mol)
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Incubation of the carcinogenic polycyclic aromatic hydrocarbon dibenz[a,h]anthracene (DBA) with liver microsomes of Sprague-Dawley rats, pretreated with Aroclor 1254, yielded more than 30 metabolites. Fifteen of these could be identified, and they account for 95% of the ethyl acetate-extractable metabolites of DBA. Twelve metabolites were identified for the first time, by chromatographic and spectroscopic methods: these were DBA-5,6-oxide, 1-, 2-, 3-, 4-, 5-, 6-phenols, 3,4:12,13-bis-dihydrodiol, 1,4/2,3-tetrol, 1,3/2,4-tetrol, 3,4-catechol, and a phenol dihydrodiol derived from the 2-phenol. Quantitative determination revealed that the attack of cytochrome P-450 dependent monooxygenases occurs at the 1,2-, 3,4- and 5,6-positions of the DBA molecule in the ratio 1.7:1.9:1.0. Evidence is presented which indicates that the phenols of DBA are formed by aromatization of the initially generated arene oxides, rather than by direct hydroxylation. The index Ni obtained by refined perturbational molecular orbital calculations was found to be superior to the reactivity number Nt in predicting the predominant phenols, i.e., 2-, 4-, and 5-phenols, formed by aromatization of the corresponding arene oxides. Their enzymatic hydrolysis leads to the formation of trans-dihydrodiols, of which the 3,4-isomer dominates the microsomal metabolites of DBA accounting for more than 22% of the total metabolic conversion, compared to the 1,2-dihydrodiol with 11-16% and the 5,6-dihydrodiol with 2%. These metabolites were obtained as enantiomeric-enriched mixtures in which the R,R enantiomer of the 1,2-dihydrodiol prevailed with 84%, of the 3,4-dihydrodiol with 79% and of the 5,6-dihydrodiol with 96%. The metabolic pathway via the 1,2-dihydrodiol proceeds to the vicinal diol epoxides, as indicated by the products of hydrolysis the 1,4/2,3- and 1,3/2,4-tetrols. No evidence for the formation of vicinal dihydrodiol epoxides from the 3,4-dihydrodiol, one of the most mutagenic and carcinogenic metabolite of DBA, could be found. In this case, tetrol epoxides have been proposed as ultimate reactive metabolites. Tetrol epoxides can also be formed from DBA-5,6-dihydrodiol via the identified 3,4:12,13-bis-dihydrodiol. This unprecedented metabolic behavior of a carcinogenic polycyclic aromatic hydrocarbon could have its cause in the high molecular symmetry of DBA which permits subsequent metabolic attacks at discrete, but structurally equivalent sites of the molecule.
Mol Pharmacol 1987 Nov
PMID:Regio- and stereoselective metabolism of dibenz[a,h]anthracene: identification of 12 new microsomal metabolites. 368 68

The major electrophysiological changes during the first 10 min of myocardial ischemia caused by complete obstruction of a coronary artery are a reduction in membrane potential, a decrease in action potential amplitude and upstroke velocity, and a prolongation of recovery of excitability following an action potential. Conduction velocity in the direction parallel to the long axis of myocardial fibers (VL) and in the transverse direction (VT) in normal myocardium are in the order of 40 cm/s and 20 cm/s respectively. During ischemia, conduction velocity decreases and lowest values for VL are in the order of 20 cm/s, for VT around 10 cm/s, before the ischemic tissue becomes inexcitable. Calculated dimensions of a possible re-entrant circuit in acutely ischemic myocardium (the product of refractory period and conduction velocity) are in the order of 7 to 8 cm. Re-entrant circuits of such dimensions were indeed demonstrated by simultaneous recording of 125 extracellular potentials from the epicardial surface of the ventricles during spontaneously occurring ventricular arrhythmias after coronary occlusion. Previous studies provided evidence that premature ventricular depolarization which initiate re-entry originated in the subendocardium, and the present experiments confirmed this. Destruction of the subendocardium of isolated, Langendorff perfused canine hearts, including the Purkinje system, by intracavitary application of phenol, did not, however, abolish ectopic activity during either ischemia or reperfusion, although the nature of the arrhythmias during ischemia was different from those in intact hearts. Coupling intervals of ectopic beats were longer in phenol-treated hearts than in intact hearts, but the site of origin of initial ectopic beats leading to ventricular tachycardia could not be determined. Re-entrant circuits with revolution times in the order of 340 to 400 ms accounted for the slow tachycardias observed in phenol-treated hearts. In contrast to intact hearts, these tachycardias never degenerated into ventricular fibrillation, indicating that an intact Purkinje system may be a necessary requirement for ventricular fibrillation to occur during acute, regional myocardial ischemia.
J Mol Cell Cardiol 1986 Apr
PMID:Electrophysiological basis for arrhythmias caused by acute ischemia. Role of the subendocardium. 371 46

Because DNA modification may be a prerequisite for chemical carcinogenesis, the DNA-damaging potential of benzene and its metabolites was examined in order to identify the proximate DNA-damaging agent associated with benzene exposure. A DNA synthesis inhibition assay previously identified p-benzoquinone as the most potent overall cellular toxin and inhibitor of DNA synthesis, but failed to discriminate among the hydroxylated metabolites. Therefore, the ability of benzene and its metabolites to induce DNA strand breaks in the mouse lymphoma cell line, L5178YS, was examined in order to provide a more accurate indication of the DNA damage associated with benzene and its metabolites. Cells were exposed to benzene, hydroquinone, catechol, phenol, 1,2,4-benzenetriol, or p-benzoquinone over a 1000-fold concentration range (1.0 microM-1.0 mM). Concentrations of benzene, phenol, or catechol as high as 1.0 mM did not increase the percentage of single-stranded DNA observed. Concentrations of hydroquinone as high as 0.1 mM were also ineffective. In contrast, both p-benzoquinone and 1,2,4-benzenetriol produced DNA breaks in a dose-related fashion. Of the two, benzoquinone proved to be more potent with an ED50 of approximately equal to 2.5 microM compared with 55.0 microM for benzenetriol. The DNA damage induced by 6.0 microM benzoquinone was maximal within 3 min of exposure and yielded approximately 70% single-stranded DNA after alkaline denaturation. By contrast, the single-stranded DNA observed after benzenetriol exposure required 60 min of exposure to achieve the same extent of damage as that found with benzoquinone. These results suggest that the benzene metabolites, benzenetriol and benzoquinone, may cause DNA damage and that the mechanisms responsible for the damage associated with these two compounds may be different.
Mol Pharmacol 1986 Jul
PMID:DNA damage in L5178YS cells following exposure to benzene metabolites. 372 44

The intimate structure of the complexes located at the sites of DNA loops attachment to the nuclear skeleton was analysed. It is shown that: there are at least three components of the attachment site complex: DNA, protein, RNA; protein moiety consists of 7-8 species with Mr 70-17 kDa. Their association with DNA is resistant to ionic detergents, high salt and urea treatments. The DNA-protein complex is also resistant to the SDS-pronase-phenol deproteinisation procedure; the buoyant density of the complex is the same as DNA density. RNase digestion at low ionic strength reduces density of the complex while the same treatment at 0,4 M NaCl has no effect; DNA-protein complexes isolated with urea-high salt treatment are visualised as globular particles 25-35 nm in diameter with DNA loops attached. These particles were not observed after detergent treatment although protein composition of the complex remained the same.
Mol Biol (Mosk)
PMID:[Composition, structure and various properties of DNA-protein complexes located at the sites of DNA loop attachment to the nuclear skeleton]. 380 12

Promastigotes of Leishmania adleri were submitted to an extraction procedure providing different carbohydrate-containing extracts. The purified aqueous extract showed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis a complex peptide pattern but carbohydrate was present only in bands of Mr approximately equal to 45 000-50 000 and 13 500. Methylated derivatives of the hexose components in this extract, analysed by mass spectrometry, suggest the presence of short sugar chains of alpha-D-mannopyranose and a branched alpha-D-mannan. The phenol extract, released in the aqueous layer a chloroform/methanol/water soluble complex contained 25% protein, 17% phosphate, 11% glucosamine, uronic acid and 61% neutral carbohydrate, and a chloroform/methanol/water insoluble fraction consisting of a glycoprotein Mr approximately equal to 22 000 and a proteic doublet Mr approximately equal to 58 000-66 000. A polysaccharide, showing galactose as predominant sugar, was released through alkaline extraction corresponding to a branched, mainly 1----3 linked galactan associated with alpha-D-mannopyranosyl units.
Mol Biochem Parasitol 1985 Jan
PMID:Partial chemical characterization of the carbohydrate moieties in Leishmania adleri glycoconjugates. 398 51

The mechanism of microsomal hydroxylation of benzene to phenol has been studied by examining the microsomal metabolism of the specifically deuterated derivative 1,3,5-[2H3]benzene. Evidence for the formation of the following four products was obtained: 2,3,5-[2H3]phenol, 3,5-[2H2]phenol, 2,4,6-[2H3]phenol, and 2,4-[2H2]phenol. The presence of 2,3,5-[2H3]phenol and 2,4-[2H2]phenol shows that, in the microsomal metabolism of benzene to phenol, a NIH shift had occurred. A deuterium isotope effect (kH/kD) of approximately 4 was detected in both the meta- and para-deuterated phenols. This finding indicates that cyclohexadienone, formed either by isomerization of the epoxide or directly from the enzyme-substrate complex, is a major intermediate in the metabolism of benzene to phenol.
Mol Pharmacol 1985 May
PMID:Mechanism of microsomal metabolism of benzene to phenol. 399 Jun 79

The action of monovalent cations Li+, Na+, K+, Rb+, Cs+, NH4+ on catalytic and physico-chemical properties of bacterial tyrosine--phenol-lyase was investigated. It was shown that K+, Rb+, Cs+, NH4+ were the noncompetitive activators of the enzyme, Na+ was an inhibitor, Li+ did not influence the catalytic activity. The values of KA and Vmax were determined for the activators in the reaction of alpha, beta-elimination of L-tyrosine. Monovalent cations affect the absorption and CD spectra of the enzyme and its complex with the quasi-substrate--L-alanine. It was suggested that an activation of tyrosine phenollyase by monovalent cations was connected with the increase of the active protonated form of the holoenzyme (lambda max 420 mm) induced by the cations-activators.
Mol Biol (Mosk)
PMID:[Effect of monovalent cations on the catalytic and spectral properties of tyrosine-phenol-lyase from Citrobacter intermedius]. 403 40

The effects of benzene and its metabolites on the rate of DNA synthesis were measured in the mouse lymphoma cell line, L5178YS. The direct toxicity of benzene could be distinguished from that of its metabolites since bioactivation of benzene in L5178YS cells was not observed. Cells were exposed to benzene, phenol, catechol, hydroquinone, p-benzoquinone, or 1,2,4-benzenetriol over the range of 1.0 X 10(-7) to 1.0 X 10(-2) M for 30 min, and the rate of DNA synthesis was measured at various times after chemical washout. Cell viability and protein synthesis were determined by trypan blue dye exclusion and [3H]leucine incorporation, respectively. Effects were designated as "DNA specific" when DNA synthesis was inhibited in the absence of discernible effects on cell membrane integrity and protein synthesis. Concentrations of benzene as high as 1 mM had no effect on DNA synthesis. Comparison of the effects at the maximum nontoxic dose for each compound showed that catechol and hydroquinone were the most effective, inhibiting DNA synthesis by 65%. Phenol, benzoquinone, and benzenetriol inhibited DNA synthesis by approximately 40%. Maximum inhibition was observed 60 min after metabolite washout in each case. Benzoquinone was the most potent inhibitor of DNA synthesis, followed by hydroquinone, benzenetriol, catechol, and phenol with ED50 values of 5 X 10(-6), 1 X 10(-5), 1.8 X 10(-4), 2.5 X 10(-4), and 8.0 X 10(-4), respectively. Cyclic voltammetric experiments were performed on the hydroxylated metabolites of benzene to assess the possible involvement of a redox-type mechanism in their inhibition of DNA synthesis. The ease of oxidation of these metabolites correlated with their ED50 values for inhibition of DNA synthesis (r = 0.997). This suggests that oxidation of phenol or one of its metabolites may be necessary for production of the species involved in inhibition of DNA synthesis.
Mol Pharmacol 1985 Dec
PMID:Relationship between the oxidation potential of benzene metabolites and their inhibitory effect on DNA synthesis in L5178YS cells. 407 12

The values reported in the literature for the extramitochondrial ATP/ADP ratio in resting rat-liver mitochondria (State 4) vary widely. The conditions required for an accurate determination of this parameter were therefore investigated. In experiments with rat-liver mitochondria incubated under State-4 conditions, it was found that the extramitochondrial ATP/ADP ratio, as calculated from the values measured in neutralised perchloric acid extracts, was lower than that estimated from the concentrations of creatine and creatine phosphate, using the metabolite indicator method. The discrepancy is due to hydrolysis of ATP occurring in the presence of perchloric acid. Conditions are described for minimising ATP hydrolysis in the presence of perchloric acid, and include the use of low concentrations of perchloric acid, short times of exposure to the acid before neutralisation, low temperatures and the presence of excess EDTA. Under these conditions, the values obtained for the extramitochondrial ATP/ADP ratio agreed with those calculated by the metabolite indicator method, provided ratios do not exceed the value of 100. In cases where the extramitochondrial ATP/ADP does exceed 100, phenol/chloroform/isoamyl alcohol must be used to quench the reactions, as described by Slater et al. (Slater, E.C., Rosing, J. and Mol, A. (1973) Biochim. Biophys. Acta 292, 534-553). With this method, the extramitochondrial ATP/ADP ratio was found to have a value of more than 1000 in rat-liver mitochondria incubated with succinate + rotenone in the resting state (pH 7.0; T = 37 degrees C), in agreement with Slater et al.
 ...
PMID:A re-evaluation of conditions required for an accurate estimation of the extramitochondrial ATP/ADP ratio in isolated rat-liver mitochondria. 609 49

The poly (A)-mRNA fraction isolated by chloroform deproteinization of liver polysomes and poly(U)-Sepharose chromatography contains a low molecular weights (congruent to 1000) peptidic fraction. The peptides which we suggested to call deprimerones (1) were extracted with 80% ethanol at pH 9.5; after ethanol evaporation, they were purified on Sephadex G-25 column as a fraction of mol. wt. between 1600 and 600, yielding about 9 mg/mg mRNA. If deproteinization is performed with phenol-chloroform the yield is about 2 mg/mg mRNA. In Novikoff hepatoma the yield of the same preparation is only 2.7 mg/mg mRNA (about 70% decrease). The obtained deprimerones are active in inhibiting transcription of thymus DNA with E. coli RNA polymerase and [3H]-GTP by about 90% at a ratio peptide/DNA = 2. For comparison the deprimerones obtained previously (2) by extraction of deproteinized DNA inhibit transcription only by about 50% at the same peptide/DNA ratio. The results demonstrated a decrease of the poly (A)-mRNA deprimerone level during carcinogenesis and further support the previously demonstrated specific occurrence of deprimerones with poly(A)-mRNA. They remain in accordance with and provide further support for the deprimerone theory of carcinogenesis postulated earlier (1).
Mol Biol Rep 1980 Jul 31
PMID:Poly(A)-mRNA deprimerones in rat liver and Novikoff hepatoma cells. 610 57


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