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Query: UNIPROT:P06889 (Mol)
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Homologous 1-naphtoxyalcanthiols of the type 1-C10H7O(CH2)nSH (n = 2-7) are used for structural studies of the microsomal cytochrome P450 active centre. It was found that the strongest complex of thiol with P450 is formed for n = 3. Microsomal oxidation of P450 substrates aminopyrine and benz(a) pyrene is inhibited by the 1-naphtoxyalcanthiols studied. A non-monotonous dependence of pI50 on n was found, the compound with a chain length n = 3 appeared to be the most effective inhibitor. The interaction of this thiol (n = 3) with both the heme group of P450 and the hydrophobic substrate zone is supposed and the distance between these points was estimated. It is possible to employ this approach for structural studies on the active centers of different isoforms of P450.
Mol Biol (Mosk)
PMID:[The study of the structure of active center of membrane-bound cytochrome p-450 using 1-naphthoxyalcanthiols]. 318 39

The instability of the solubilized/purified form, the lack of catalytic activity of the stabilized, macrolide-complexed form, and the compromised catalytic activity of the decomplexed form of steroid-inducible cytochrome P450IIIA1 motivated further investigations of the substrate specificity of this isozyme. A major complementary goal was to identify reactions utilizable as sensitive, specific diagnostic probes for the detection and partial characterization of this isozyme in tissues for which isolation and purification are not practical (e.g., extrahepatic, embryonic tissues, etc.). The approach utilized a combination of a specific, purified inducer, specific inhibitors including triacetyloleandomycin and inhibitory antibodies, and diagnostic probe substrates including the phenoxazone ethers, testosterone, warfarin, 2-acetylaminofluorene, estradiol-17 beta and benzo[a]pyrene. The results obtained indicated that steroid-inducible, rat hepatic P450IIIA1 would catalyze minimal or no O-dealkylation of methoxy-, ethoxy- or pentoxyphenoxazone but catalyzed rapid O-debenzylation of benzyloxyphenoxazone. Hydroxylation of testosterone was specific for the beta face of the molecule at the 2-, 6-, 15- and 16-positions with no detectable conversion to androstenedione and minimal hydroxylation on the alpha face. Both the R- and S-enantiomers of warfarin were attacked at positions 9 and 10, and these reactions appeared to be specific to isozymes of the IIIA family. Aromatic hydroxylation of estradiol-17 beta was efficiently catalyzed, particularly at the 2-position. Hydroxylations of 2-acetylaminofluorene at positions 5 and 7 were catalyzed at relatively rapid rates, but N-hydroxylation of the same substrate was not catalyzed effectively. Hydroxylation of benzo[a]pyrene occurred preferentially at carbon 3 with much lesser activity at carbon 9 and little or no detectable attack at positions 7 or 1. The results indicated that the 2 beta- and 15 beta-hydroxylation of testosterone and the 10-hydroxylation of warfarin would serve as the most useful probes thus far available for detection of the presence of functional P450IIIA1 isozymes in tissues for which isolation and purification are impractical. The results also indicated a very broad, yet selective substrate specificity for the steroid-inducible P450IIIA1.
Mol Pharmacol 1988 Nov
PMID:On the substrate specificity of cytochrome P450IIIA1. 326 50

Three genotoxic carcinogens and eight tumor promoters were tested for induction of aneuploidy, specifically chromosome loss, in Saccharomyces cerevisiae D61.M. This is a heterozygous diploid yeast strain that permits the scoring of segregants expressing three linked recessive markers (cyhR2, ade6, and leu1), two of which (ade6 and leu1) are located close to the centromere on opposite arms of chromosome VII. The centromere marker leu was routinely checked, and a positive control (bavistan) was run with every experiment. The three genotoxic carcinogens aflatoxin B1, benzo(a)pyrene, and 7,12-dimethylbenz(a)anthracene did not induce aneuploidy, independent of the presence or absence of an exogenous metabolic activation system (rat liver homogenate; S9). Four of the eight tumor promoters tested induced chromosome loss but not mitotic recombination or mutation: cholic acid, lithocholic acid, phenobarbital, and saccharin. Diethylstilbestrol (DES) led to positive as well as to negative results in several independent experiments. In the case of the positive experiment, DES also induced putative recombinants. Three tumor promoters induced neither chromosome loss nor mitotic recombination: anthralin, 4,4'-dichloro-diphenyl-ethane (DDT) and gamma-hexachlorcyclohexane (lindane). From our experiments it can be concluded that the hypothesis put forward by Parry et al. [Nature; 294:263-265], according to which tumor promoters induce chromosome loss in yeast, is not correct in a general sense. In our set of eight tumor promoters, only one half distinctly induced chromosome loss.
Environ Mol Mutagen 1988
PMID:Induction of mitotic chromosome loss in the diploid yeast Saccharomyces cerevisiae D61.M by genotoxic carcinogens and tumor promoters. 328 49

Rifampicin induces cytochrome P-450 3c, progesterone 16 alpha- and 6 beta-hydroxylation, 17 beta-estradiol 2-hydroxylation, benzo[a] pyrene hydroxylation, and erythromycin N-demethylation in rabbit liver microsomes. Kinetic analysis of the 6 beta-hydroxylation of progesterone as catalyzed by liver microsomes prepared from rifampicin-treated B/J rabbits exhibits a curvilinear double-reciprocal plot, suggestive of substrate activation. Further experimentation demonstrated that alpha-naphthoflavone could augment the catalytic efficiency [Vmax/Km] observed for the 16 alpha- and 6 beta-hydroxylation of progesterone and the 2-hydroxylation of 17 beta-estradiol, whereas erythromycin N-demethylase activity was partially inhibited. Allosteric activation of these steroid hydroxylases by alpha-naphthoflavone is also found for human liver microsomes, indicating that the activation of these enzymes is conserved in man and rabbit.
Mol Pharmacol 1988 May
PMID:Modulation of rabbit and human hepatic cytochrome P-450-catalyzed steroid hydroxylations by alpha-naphthoflavone. 336 1

This report details studies of whether mouse NIH/3T3 TGr karyoplasts that are exposed to benzo[a]pyrene epoxide(trans) (BPDE) can progress to tumorigenicity when they are rescued with either mouse B10mtJ CAPr tumorigenic (experiment 1) or nontumorigenic (experiment 2) cytoplasts. The mitochondrial DNA of the B10mtJ cells has restriction fragment length differences that allow distinction from the mitochondrial DNA of the NIH/3T3 cells. The reconstructed clones in experiment 1 were all tumorigenic, while those from experiment 2 were all nontumorigenic. The clones in both experiments were passaged for an equivalent time. These findings reflect the presence of factors in mouse cytoplasm capable of suppressing the tumor phenotype of NIH/3T3-BPDE treated karyoplasts when rescued at an early stage of progression.
Somat Cell Mol Genet 1988 Jul
PMID:Cytoplasmic suppression of tumor progression in reconstituted cells. 339 62

Previously, we have shown that Chinese hamster ovary (CHO) cells are useful for quantifying chemical-induced gene mutations. We have defined the conditions of a Multiplex CHO System which permits determination of mutagen-induced chromosome aberration, and sister chromatid exchange (SCE) in addition to cytotoxicity and gene mutation in the same treated culture. This allows us to extend the spectrum of quantitative mutagenesis to include clastogenic endpoints. In the present study, we used four carcinogenic/noncarcinogenic pairs to validate the relative utility and sensitivity of each endpoint, and to study the interrelationship of these four distinct biological effects. These compounds include the direct-acting carcinogens N-methyl-N'-nitro-N-nitrosoguanidine (MNNG), ICR 170 and their noncarcinogenic analogue N-methyl-N'-nitroguanidine (MNG) and ICR 170-OH, and the procarcinogens benzo[a]pyrene (B[a]P) and dimethylnitrosamine (DMN) and their noncarcinogenic analogues pyrene and dimethylamine (DMA) respectively. A rat liver homogenate preparation (S9) was used to assay for the biological activities of procarcinogens. Under our experimental conditions, we observed that carcinogens DMN, B[a]P, MNNG and ICR 170, but not their noncarcinogenic counterparts, showed all four biological effects. Our studies with these chemicals showed that cytotoxicity does not necessarily correlate with any of the genetic endpoints. On a molar basis, noncarcinogens, pyrene and ICR 170-OH show similar toxicity to carcinogens B[a]P and ICR 170, respectively. The other two non-carcinogenic analogues, DMA and MNG, exhibit minimal toxicity at concentrations 10-1,000 times higher than cytotoxic concentrations of the corresponding carcinogens, DMN and MNNG. In general, gene mutation and SCE are more sensitive than chromosome aberration assay. The gene mutation assay is more specific than SCE and chromosome aberration assays since none of the noncarcinogens exhibit a detectable response in the gene mutational assay. ICR 170 and MNNG are much more active than B[a]P and DMN as ranked on a molar basis. These results indicate that the Multiplex CHO System is capable of discriminating divergent structural classes of carcinogenic and noncarcinogenic compounds, such as the eight chemicals chosen for our study.
Mol Toxicol
PMID:Multiple-endpoint mutagenesis with Chinese hamster ovary (CHO) cells: evaluation with eight carcinogenic and non-carcinogenic compounds. 344 58

The dnaQ (mutD) gene product which encodes the epsilon-subunit of the DNA polymerase III holoenzyme has a central role in controlling the fidelity of DNA replication because both mutD5 and dnaQ49 mutations severely decrease the 3'-5' exonucleolytic editing capacity. It is shown in this paper that more than 95% of all dnaQ49-induced base pair substitutions are transversions of the types G:C-T:A and A:T-T:A. Not only is this unusual mutational specificity precisely that observed recently for a number of potent carcinogens such as benzo(a) pyrene diolepoxide (BPDE) and aflatoxin B1 (AFB1), which are dependent on the SOS system to mutagenize bacteria, but it is also seen for the constitutively expressed SOS mutator activity in E. coli tif-1 strains as well as for the SOS mutator activity mediated gap filling of apurinic sites. Because the G:C-T:A and A:T-T:A transversions can either result from the insertion of an adenine across from apurinic sites or arise due to the incorporation of syn-adenine opposite a purine base, we postulate that the DNA polymerase III holoenzyme also has a reduced discrimination ability in a dnaQ49 background. The introduction of a lexA (Ind-) allele, which prevents the expression of SOS functions, led to a significant reduction in the dnaQ49-caused mutator effect. Both, the mutational specificity observed and the partial lexA+ dependence of the mutator effect provoke a reanalysis of the hypothesis that the DNA polymerase III holoenzyme can be converted into the postulated but until now unidentified SOS polymerase.
Mol Gen Genet 1986 Jan
PMID:Mutational specificity of a proof-reading defective Escherichia coli dnaQ49 mutator. 351 28

Plasmodium yoelii nigeriensis infection in albino mice significantly altered the hepatic microsomal mixed function oxidase system. Cytochrome P-450 (the terminal monooxygenase) and other monooxygenases, viz. aniline hydroxylase, aminopyrine-N-demethylase and benzo(a)pyrene hydroxylase were significantly lowered while microsomal heme showed 4-fold increase at 80% parasitaemia. Noticeable impairment in the other components like NADH:cytochrome b5 reductase, NADPH:cytochrome c reductase, cytochrome b5 and glucose-6-phosphatase was also observed. Oral treatment of normal and P. y. nigeriensis infected mice with chloroquine (64 mg per kg body weight for 4 days) caused lowering of mixed function oxidase activities which however showed a recovering trend, a week after cessation of treatment.
Mol Biochem Parasitol 1987 Jul
PMID:Effect of Plasmodium yoelii nigeriensis infection and chloroquine on the hepatic mixed function oxidase system of mice. 362 73

Skeletal muscle actin labelled with pyrene was used to measure the critical concentration (Cc) for assembly in conditions designed to approximate the ionic environment in the cytoplasm. Under these conditions (0.1 M-KCl, 2 mM-MgCl2, 1.1 mM-ATP, 0.1 mM-CaCl2, 0.5 mM-ethyleneglycol-bis(beta-aminoethylether)N,N'-tetraacetic acid, 0.25 mM-2-mercaptoethanol, 20 mM-imidazol X HCl, pH 7.0), the steady-state Cc value was estimated to be 0.07 microM (3.0 micrograms/ml), and, consistent with previous observations, the Cc increased to 0.20 microM (8.7 micrograms/ml) in the presence of 10(-6) M-cytochalasin D, and to 1.10 microM (47 micrograms/ml) after conversion of ATP to ADP using hexokinase and glucose. Addition of inorganic phosphate (Pi) at concentrations up to 20 mM caused only a slight decrease in the steady-state Cc, but at 2 mM-Pi (a reasonable estimate of cytoplasmic concentrations) the increase in Cc due to cytochalasin D was abolished, and at higher Pi concentrations there was even a slight decrease. Increasing Pi concentrations also progressively reduced the steady-state Cc for ADP-actin close to that for ATP-actin. These results are consistent with an increased affinity of ADP-actin for the polymer in the presence of Pi. To determine whether these effects of Pi were simply mass action effects on hydrolysis of bound ATP by polymerized actin, the stoichiometry of ATP hydrolysis during actin assembly was estimated and found to be at unity within the limits of experimental error and to be unaffected by Pi up to 20 mM. In addition, actin depolymerized by removal of ATP using glucose and hexokinase rapidly reassembled after addition of 20 mM-Pi. These results are interpreted by a mechanism involving the formation of ADP-Pi-actin species and are discussed in relation to the phenomenon of treadmilling and the theory of dynamic instability, and the potential for their occurrence in cells.
J Mol Biol 1986 Sep 20
PMID:Cytoplasmic concentrations of inorganic phosphate affect the critical concentration for assembly of actin in the presence of cytochalasin D or ADP. 380 73

Synthesis of the c-myc gene product was measured during the entire cell cycle of subconfluent mouse 3T3 cells with an antibody raised against a human c-myc synthetic peptide. The antiserum recognized two mouse c-myc-encoded proteins with apparent molecular weights in sodium dodecyl sulfate-polyacrylamide gels of 62,000 and 60,000. Cell-derived p62 was compared with the mouse c-myc gene product synthesized in vitro. Immunoprecipitation, electrophoretic analyses, and peptide mapping provided evidence that p62 is encoded by the mouse c-myc gene. The rate of synthesis of the c-myc proteins was tightly coupled to the cellular growth state of nontransformed A31 3T3 cells, but not to that of their benzo(a)pyrene-transformed derivative (BPA31). Furthermore, the synthesis of the c-myc proteins was stimulated by the exposure of confluent, density-arrested A31 cells to platelet-derived growth factor or fibroblast growth factor. Tightly synchronized cell populations were obtained on the addition of serum factors to subconfluent, serum-deprived A31 cells, and c-myc expression could be monitored for more than one complete cell cycle. One hour after stimulation the steady-state level of the 2.2 kilobase c-myc transcript increased 30-fold relative to that of quiescent cells and decreased thereafter to the level observed during exponential growth. The rate of synthesis of c-myc-encoded proteins was determined by immunoprecipitation after a 2-h labeling period. After an initial sevenfold increase detectable 2 h after serum addition, the rate of synthesis remained constant throughout the rest of the cell cycle. No further changes associated with the late prereplicative period, S phase, G2, or mitosis could be demonstrated. Pulse-chase and long-term labeling experiments revealed different half-lives for the two c-myc-encoded proteins. The half-lives of the c-myc proteins, however, were independent of the cellular growth state. The sustained expression observed throughout the cell cycle suggests that the growth-related function of c-myc may be required during the G0-G1 transition and in all phases of the cycle of the growing cell.
Mol Cell Biol 1985 Nov
PMID:Growth-dependent synthesis of c-myc-encoded proteins: early stimulation by serum factors in synchronized mouse 3T3 cells. 391 69


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