Fluorometric assay for pancreatic cholesterylester hydrolase

A fluorescent cholesterylester analogue, cholesteryl 6-pyrenylhexanoate (ChPH), was used as a substrate for pancreatic cholesterylester hydrolase (CEH, EC 3.1.1.13). The substrate consisted of ChPH in egg phosphatidylcholine stabilized microemulsion with the aqueous phase containing deoxycholate below its critical micellar concentration. Due to the high local concentration of the pyrene moiety in the ChPH phase the fluorescence emission due to monomeric pyrene (IM) is greatly exceeded by the excimer fluorescence intensity (IE). Upon reacting with CEH 6-pyrenylhexanoic acid and free cholesterol are formed. The fluorescent product, 6-pyrenylhexanoic acid, is transferred into the aqueous phase containing deoxycholate, thus resulting in an enhanced fluorescence due to monomeric pyrene. CEH activity can thus be assessed directly by monitoring IM vs. time without product separation. Useful assay conditions were found to be 10 microM ChPH, 0.1 microM egg phosphatidylcholine, 2 mM sodium deoxycholate at 25 degrees C and pH 6.5-7.0.     

Preparation of amphiphilic poly(L-lactide)-graft-chondroitin sulfate copolymer self-aggregates and its aggregation behavior

Novel polymeric amphiphilic copolymers were synthesized using chondroitin sulfate (CS) as a hydrophilic segment and poly(L-lactide) (PLLA) as a hydrophobic segment. Micelles of those copolymers were formed in an aqueous phase and were characterized by 1H NMR spectra, fluorescence techniques, dynamic light scattering (DLS), atomic force microscopy (AFM), and confocal microscopy. Their critical aggregation concentrations (CAC) are in the range of 0.0043-0.0091 mg/mL at 25 degrees C. The partition equilibrium constants, Kv, of the pyrene probe in the aqueous solution were from 3.65 x 10(5) to 1.41 x 10(6) at 25 degrees C. The mean diameters of the micelles were below 200 nm, and their sizes were narrowly distributed. The AFM images revealed that the self-aggregates were spherical. Additionally, the CSn-PLLA micelles can efficiently transport within the cells via endocytosis as observed from confocal microscopy.     

Some properties of vicinal diol-epoxides derived from benzo(a)anthracene and benzo(a)pyrene

The alkylating properties of pairs of syn- and anti-isomers of 2 diol-epoxides derived from benzo(a)pyrene (BP) and of 1 derived from benz(a)anthracene (BA) have been investigated. Of the anti-diol-epoxides, anti-BP 7,8-diol-9,10-oxide was the most reactive compound towards DNA, towards sodium p-nitrothiophenolate in a non-aqueous solvent system, and towards 4-(p-nitrobenzyl)pyridine in aqueous solution; anti-BP 9,10,-diol-7,8-oxide was of intermediate reactivity and anti-BA 8,9-diol-10,11-oxide was least reactive. The syn-diol-epoxides gave unsatisfactory results with DNA and 4-(p-nitrobenzyl)pyridine because of their rapid solvolysis in aqueous solution, but with sodium p-nitrothiophenolate showed the order of reactivity syn-BP 7,8-diol-9,10-oxide greater than syn-BA 8,9-diol-10,11-oxide greater than syn-BP 9,10-diol-7,8-oxide. The products of the reaction between diol-epoxides and nucleic acids were examined by Sephadex LH-20 chromatography followed by high-pressure liquid chromatography (HPLC) and the diol-epoxides were shown to react principally with the guanosine and adenosine moieties of RNA.     

Degradation of benzo[a]pyrene by Mycobacterium vanbaalenii PYR-1

Metabolism of the environmental pollutant benzo[a]pyrene in the bacterium Mycobacterium vanbaalenii PYR-1 was examined. This organism initially oxidized benzo[a]pyrene with dioxygenases and monooxygenases at C-4,5, C-9,10, and C-11,12. The metabolites were separated by reversed-phase high-performance liquid chromatography (HPLC) and characterized by UV-visible, mass, nuclear magnetic resonance, and circular dichroism spectral analyses. The major intermediates of benzo[a]pyrene metabolism that had accumulated in the culture media after 96 h of incubation were cis-4,5-dihydro-4,5-dihydroxybenzo[a]pyrene (benzo[a]pyrene cis-4,5-dihydrodiol), cis-11,12-dihydro-11,12-dihydroxybenzo[a]pyrene (benzo[a]pyrene cis-11,12-dihydrodiol), trans-11,12-dihydro-11,12-dihydroxybenzo[a]pyrene (benzo[a]pyrene trans-11,12-dihydrodiol), 10-oxabenzo[def]chrysen-9-one, and hydroxymethoxy and dimethoxy derivatives of benzo[a]pyrene. The ortho-ring fission products 4-formylchrysene-5-carboxylic acid and 4,5-chrysene-dicarboxylic acid and a monocarboxylated chrysene product were formed when replacement culture experiments were conducted with benzo[a]pyrene cis-4,5-dihydrodiol. Chiral stationary-phase HPLC analysis of the dihydrodiols indicated that benzo[a]pyrene cis-4,5-dihydrodiol had 30% 4S,5R and 70% 4R,5S absolute stereochemistry. Benzo[a]pyrene cis-11,12-dihydrodiol adopted an 11S,12R conformation with 100% optical purity. The enantiomeric composition of benzo[a]pyrene trans-11,12-dihydrodiol was an equal mixture of 11S,12S and 11R,12R molecules. The results of this study, in conjunction with those of previously reported studies, extend the pathways proposed for the bacterial metabolism of benzo[a]pyrene. Our study also provides evidence of the stereo- and regioselectivity of the oxygenases that catalyze the metabolism of benzo[a]pyrene in M. vanbaalenii PYR-1.     

Caffeine enhancement of the initiation of DNA replication in benzo[a]pyrene diol epoxide damaged cells

We have used a newly developed pH stepwise alkaline elution method to show that caffeine enhances DNA initiation (DNA replication in sub-replicon size nascent strands) in (+/-)-7 beta,8 alpha-dihydroxy-9 alpha,10 alpha-epoxy-7,8,9, 10-tetrahydrobenzo[a]pyrene (BPDEI) damaged mouse primary epidermal cells. Caffeine alone caused a dose-dependent increase in DNA initiation without an effect on DNA elongation (joining of replicon-sized nascent DNA). BPDEI alone inhibited DNA elongation as shown by a relative increase in sub-replicon size nascent DNA. When BPDEI treated cells were incubated with caffeine, there was a dose-dependent increase in sub-replicon size nascent DNA without a significant effect on the proportion of joined replicons. Therefore, caffeine can enhance DNA initiation in mammalian cells damaged with a reactive form of the carcinogen benzo[a]pyrene and this may account for the biological interaction between caffeine and the ultimate carcinogenic form of benzo[a]pyrene.     

共基质对10株细菌降解芘的作用

从石油污染的污泥中分离出10株细菌(SB01—SB10),研究了有(或无)共基质(葡萄糖Glu,或菲PHE)对细菌降解芘(PYR)的影响.结果表明：当以PYR为唯一碳源和能源时(MS₁),SB01的PYR降解率最高,5 d可降解30.4%;以Glu为共代谢基质时(MS₂),SB09的PYR降解率最高,可达37.7%;以PHE为共代谢基质时(MS₃),SB10的PYR降解率为50.2%.Glu抑制SB01、SB03对PYR的降解,对SB01抑制作用最明显,使SB01的PYR降解率降低7.9%;Glu对SB02、SB07、SB08、SB10降解率无明显促进或抑制作用.PHE对细菌降解PYR均有促进作用,对SB10的促进作用最明显,使其降解率提高298%.Glu与PHE对SB04和SB09降解PYR的促进作用无显著差异,而对其它各菌株而言,PHE对PYR降解的促进作用大于Glu.     

Effect of surfactant on the estimation by solid phase microextraction of bioavailable pyrene in soil samples

This study was focused on the effect of the presence of surfactant on the bioremediation efficacy and sensitivity of solid phase microextraction (SPME) in the pyrene-contaminated soil. Soils with 1.3 and 7.6% soil organic matter (SOM) were tested for biodegradation by microorganisms and extracted by aqueous solutions of the matrix used for SPME. For the biodegradation test, the presence of Triton X-100 at 5× CMC (critical micelle concentration) significantly enhanced pyrene removal for soil with lower SOM content (1.3%). However, this removal was insignificant for soil with higher SOM content (7.6%). The results may suggest that 5× CMC was not sufficient to improve significantly pyrene desorption for soil with higher SOM content. For the bioavailability test, in the absence of Triton X-100, SPME estimation of bioavailability in soils with indigenous or seeded microorganisms had an error range within 15%. However, with addition of Triton X-100, SPME estimations showed a significant decline (41 and 77%), in relation to their predicted values, for soil samples with SOM of 1.3 and 7.6%, respectively. The main reason for this underestimation is that micelle formation from the application of surfactant impacted the concentration of dissolved pyrene, rather than competitive site occupation between pyrene and surfactant molecules for SPME fiber. Thus, if soil samples contain surfactant, SPME would significantly underestimate bioavailability and risk level of PAH-contaminated sites.     

Differential utilization of pyrene as the sole source of carbon by Bacillus subtilis and Pseudomonas aeruginosa strains: role of biosurfactants in enhancing bioavailability

AIMS: Our goal is to compare the efficiency of utilization of pyrene as the sole source of carbon for growth and energy by two nonactinomycetous groups of bacteria viz., Bacillus subtilis DM-04 and Pseudomonas aeruginosa mucoid (M) and nonmucoid (NM) strains, isolated from a petroleum-contaminated soil sample of north-east India. METHODS AND RESULTS: Bacillus subtilis DM-04 and P. aeruginosa M and NM bacterial strains were capable of secreting biosurfactant in the culture medium while growing on pyrene and their pyrene utilizing efficiency was demonstrated by correlating the bacterial growth in the presence of pyrene as the sole source of carbon along with a concomitant decrease in pyrene content from the culture medium with respect to time. The biosurfactant secreted by the respective bacterial strains enhanced the apparent solubility of pyrene by factors of 5-7 and influenced the bacterial cell surface hydrophobicity resulting in higher uptake and utilization of pyrene by bacteria. The growth of B. subtilis DM-04 and P. aeruginosa M and NM strains at the expense of pyrene after 96 h showed an assimilation of about 48.0 +/- 1.1% (mean +/- SD) and 32.0 +/- 0.6% (mean +/- SD) of pyrene carbon, respectively, showing differences in metabolism of pyrene by these bacterial strains. CONCLUSIONS: Bacillus subtilis DM-04 strain exhibited higher utilization and cellular assimilation of pyrene compared with P. aeruginosa M and NM strains. Further, the biosurfactants produced by the bacteria under study are capable of enhancing the solubility of pyrene in aqueous media and can influence the cell surface hydrophobicity of the biosurfactant-producing strains that results in a higher uptake of pyrene. SIGNIFICANCE AND IMPACT OF THE STUDY: It may be suggested that the bacteria used in this study are suitable candidates for practical field application for effective in situ bioremediation of pyrene-contaminated sites.     

A comparison of the isoelectric points of mouse liver UDP-glucuronosyltransferase enzymes conjugating the twelve benzo[a]pyrene phenols

Solubilized mouse liver microsomes were subjected to chromatofocusing using a pH 9.5 to 6.0 gradient. UDP-glucuronosyltransferase activity was assayed using 12 benzo[a]pyrene phenols as substrates. The rank of microsomal activity for the phenols was as follows: 12 > 10 > 4 > 1 > 7 > 5 > 8 > 9 > 3 > 11 > 6 > 2. Fractions separated on chromatofocusing according to isoelectric point indicated that 3-, 10-, 11-, and 12-hydroxybenzo[a]pyrene were conjugated primarily by a high pI (～8.5) activity(s), 2-, 6-, 8-, and 9-hydroxybenzo[a]pyrene were conjugated primarily by a low pI (～6.7) activity(s), and 1-, 4-, 5-, and 7-hydroxybenzo[a]pyrene were conjugated equally well by high and low pI forms.     

Initial characterization of new bacteria degrading high-molecular weight polycyclic aromatic hydrocarbons isolated from a 2-year enrichment in a two-liquid-phase culture system

AIMS: To characterize some polycyclic aromatic hydrocarbons (PAH)-degrading microorganisms isolated from an enriched consortium degrading high molecular weight (HMW) PAHs in a two-liquid-phase (TLP) soil slurry bioreactor, and to determine the effect of low molecular weight (LMW) PAH on their growth and HMW PAH-degrading activity. METHODS AND RESULTS: Several microorganisms were isolated from a HMW-PAH (pyrene, chrysene, benzo[a]pyrene and perylene) degrading consortium enriched in TLP cultures using silicone oil as the organic phase. From 16S rRNA analysis, four isolates were identified as Mycobacterium gilvum B1 (99% identity),Bacillus pumilus B44 (99% identity), Microbacterium esteraromaticum B21 (98% identity), and to the genus Porphyrobacter B51 (96% identity). The two latter isolates have not previously been associated with PAH degradation. Isolate B51 grew strongly in the interfacial fraction in the presence of naphthalene vapours and phenanthrene compared with cultures without LMW PAHs. Benzo[a]pyrene was degraded in cultures containing a HMW PAH mixture but pyrene had no effect on its degradation. The growth of isolates B1 and B21 was improved in the aqueous phase than in the interfacial fraction for cultures with naphthalene vapours. Pyrene was required for benzo[a]pyrene degradation by isolate B1. For isolate B21, pyrene and chrysene were degraded only in cultures without naphthalene vapours. CONCLUSION: Consortium enriched in a TLP culture is composed of microorganisms with different abilities to grow at the interface or in the aqueous phase according to the culture conditions and the PAH that are present. Naphthalene vapours increased the growth of the microorganisms in TLP cultures but did not stimulate the HMW PAH degradation. SIGNIFICANCE AND IMPACT OF THE STUDY: New HMW PAH-degrading microorganisms and a better understanding of the mechanisms involved in HMW PAH degradation in TLP cultures.     

The conversion of benzo(alpha)pyrene 4,5-oxide into 4-hydroxybenzo(alpha)pyrene in the presence of polyriboguanylic acid.

Incubation of benzo[alpha] pyrene 4,5-oxide with poly(G) in neutral aqueous ethanol resulted in the formation of covalent adducts and in the production of free 4-hydroxybenzo[alpha]pyrene. This phenol, which was identified by its UV spectral properties and by its chromatographic characteristics, was also formed but at a much slower rate when the epoxide was incubated with DNA or with GMP. Phenol formation was not detected when benzo[alpha]-pyrene 4,5-oxide was incubated for prolonged periods in the presence of poly(A), poly(C) or poly(U) or in the absence of nucleic acid. Formation of 4-hydroxybenzo[alpha] pyrene from the epoxide in the presence of poly(G) was not accompanied by detectable base modifications or by breakage of phosphodiester linkages.     

Fluorescence Studies on a Designed Peptide of REIP as a Potential Hydrophobic Drug Carrier

Many hydrophobic drugs have limited or no activity in clinical application due to their poor aqueous solubility. In order to find fine delivery system, we designed a novel peptide REIP (Ac-RIEIRIEIAPAIEIRIEIR) and investigated its properties as a delivery system. Microcrystal of pyrene could be stabilized by the peptide REIP and suspended in aqueous solution. We used pyrene as a model hydrophobic drug and egg phosphatidylcholine (EPC) vesicles as model membranes to study the ability of REIP in hydrophobic drug encapsulation and transfer to EPC vesicles (liposome) by analyzing the fluorescence spectroscopy of pyrene. It was found that pyrene was present in the crystalline form when stabilized by REIP and was able to transfer into EPC vesicles in molecular form. The concentration of pyrene released into the EPC vesicles at a given time was quantified using a calibration curve. Double exponential curve fitting was better for the release profiles of REIP-Py solution than single exponential curve fitting.     

Cellular uptake and intracellular localization of benzo(a)pyrene by digital fluorescence imaging microscopy

Uptake of benzo(a)pyrene by living cultured cells has been visualized in real time using digital fluorescence-imaging microscopy. Benzo(a)pyrene was noncovalently associated with lipoproteins, as a physiologic mode of presentation of the carcinogen to cells. When incubated with either human fibroblasts or murine P388D1 macrophages, benzo(a)pyrene uptake occurred in the absence of endocytosis, with a halftime of approximately 2 min, irrespective of the identity of the delivery vehicles, which were high density lipoproteins, low density lipoproteins, very low density lipoproteins, and 1-palmitoyl-2-oleoylphosphatidylcholine single-walled vesicles. Thus, cellular uptake of benzo(a)pyrene from these hydrophobic donors occurs by spontaneous transfer through the aqueous phase. Moreover, the rate constant for uptake, the extent of uptake, and the intracellular localization of benzo(a)pyrene were identical for both living and fixed cells. Similar rate constants for benzo(a)pyrene efflux from cells to extracellular lipoproteins suggests the involvement of the plasma membrane in the rate-limiting step. The intracellular location of benzo(a)pyrene at equilibrium was coincident with a fluorescent cholesterol analog, N-(7-nitrobenz-2-oxa-1,3-diazole)-23,24-dinor-5-cholen-22-amine-3 beta-ol. Benzo(a)pyrene did not accumulate in acidic compartments, based on acridine orange fluorescence, or in mitochondria, based on rhodamine-123 fluorescence. When the intracellular lipid volume of isolated mouse peritoneal macrophages was increased by prior incubation of these cells with either acetylated low density lipoproteins or with very low density lipoproteins from a hypertriglyceridemic individual, cellular accumulation of benzo(a)pyrene increased proportionately with increased [1-14C]oleate incorporation into cellular triglycerides and cholesteryl esters. Thus, benzo(a)pyrene uptake by cells is a simple partitioning phenomenon, controlled by the relative lipid volumes of extracellular donor lipoproteins and of cells, and does not involve lipoprotein endocytosis as an obligatory step.     

Pyrene phospholipid as a biological fluorescent probe for studying fusion of virus membrane with liposomes

We are using fluorescent endogenous phospholipids in virus membranes to study the factors that promote fusion on interaction with receptor membranes. To this end, vesicular stomatitis virus (VSV) grown in baby hamster kidney (BHK-21) cells was biologically labeled with fluorescent lipids, primarily phosphatidylcholine and phosphatidylethanolamine, derived from pyrene fatty acids. The pyrene lipids present in the virions showed a fluorescence spectrum typical of pyrene with an intense monomer and a broad excimer. Interaction of pyrene lipid labeled VSV with serum lipoproteins led to a spontaneous fast transfer of the small amount of pyrene fatty acids present in the envelope (t1/2 less than or equal to 7 min), followed by a considerably slower transfer of pyrene phospholipids from the membrane of the virions (t1/2 greater than or equal to 12 h). Incubation of pyrene phospholipid labeled VSV with phosphatidylserine small unilamellar vesicles resulted in fusion at low pH (pH 5.0) as measured by the change in the excimer/monomer fluorescence intensity ratio. Fusion kinetics was rapid, reaching a plateau after 4 min at pH 5.0 and 37 degrees C. Only negligible fusion was noted at neutral pH or at 4 degrees C. Fully infectious virions labeled biologically with fluorescent lipids provide a useful tool for studying mechanisms of cell-virus interactions and neutralization of viral infectivity by specific monoclonal antibodies reactive with viral membrane glycoprotein.     

Sugar transport by the bacterial phosphotransferase system. Characterization of the sulfhydryl groups and site-specific labeling of enzyme I

Enzyme I is the first protein of the phospho transfer sequence in the bacterial phosphoenolpyruvate:glycose phosphotransferase system. This protein exhibits a temperature-dependent monomer/dimer equilibrium. The nucleotide sequence of Escherichia coli ptsI indicates four -SH residues per subunit (Saffen, D. W., Presper, K. A., Doering, T. L., and Roseman, S. (1987) J. Biol. Chem. 262, 16241-16253). In the present experiments, the sulfhydryl groups of the E. coli enzyme were studied with various -SH-specific reagents. Titration of Enzyme I with 5,5'-dithiobis-2-nitrobenzoic acid also revealed four reacting -SH groups. The kinetics of the 5,5'-dithiobis-2-nitrobenzoic acid reaction with Enzyme I exhibit biphasic character, with pseudo-first order rate constants of 2.3 x 10(-2)/s and 2.3 x 10(-3)/s at pH 7.5, at room temperature. Fractional amplitudes associated with the rate constants were 25 +/- 5% for the fast and 75 +/- 5% for the slow rate. The "slow" rate was influenced by ligands that react with Enzyme I (the protein HPr, Mg2+, Mg2+ plus P-enolpyruvate), and also by temperature (at the temperature range where the monomer/dimer association occurs). The fractional ratio of the two rates remained at 1:3 under these conditions. Thus, under all conditions tested, two classes of -SH groups were detected, one reacting more rapidly than the other three -SH groups. Modification of the "fast" -SH group results in an active enzyme capable of forming dimer, whereas modification of the slow -SH groups results in inactive and monomeric Enzyme I. The enzyme was labeled with pyrene maleimide under conditions where only the more reactive sulfhydryl group was derivatized. Hydrolysis by trypsin followed by reverse-phase high performance liquid chromatography analysis of the peptide mixture resulted in only one fluorescent peak. This peak was not observed when the more reactive sulfhydryl residue was protected prior to pyrene maleimide labeling. Amino acid sequencing of the fluorescent peak indicated that the more reactive residue is the C-terminal amino acid residue, cysteine 575. The results provide a means for selectively labeling Enzyme I with a fluorophore at a single site while retaining full catalytic activity.     

Mechanism and rate of permeation of cells by polycyclic aromatic hydrocarbons

The principal mechanism of cellular uptake of benzo(a)pyrene and other polycyclic aromatic hydrocarbons (PAH) from lipoproteins into cells is spontaneous transfer through the aqueous phase (Plant, A. L., Benson, D.M., and Smith, L.C. (1985) J. Cell Biol. 100, 1295-1308). Cellular uptake of benzo(a)pyrene from low density lipoproteins followed first-order kinetics with a rate constant that was independent of the relative lipoprotein concentrations or cell number but which was 2 orders of magnitude smaller than the rate constant for benzo(a)pyrene desorption from low density lipoproteins. Moreover, identical rate constants for cellular uptake of benzo(a)pyrene were observed when the donor vehicle was high density lipoproteins, very low density lipoproteins, or single bilayer phosphatidylcholine vesicles, even though rate constants for benzo(a)pyrene transfer from these donor vehicles differed by 10-fold. When phosphatidylcholine vesicles containing benzo(a)pyrene and a nontransferable fluorescence quencher were mixed with cells in a stopped-flow system, two kinetic components were distinguished: a fast component with a rate constant corresponding to that measured for transfer of benzo(a)pyrene out of vesicles, followed by a much slower component, with a time course approximating that measured for cellular accumulation of benzo(a)pyrene by other techniques. Rate constants for desorption of a series of PAH which contained different number of aromatic rings from phosphatidylcholine vesicles differed over a 70-fold range. First-order rate constants for cell uptake of benzo(a)pyrene and five other PAH of different molecular sizes had the same 70-fold range of values, but were 2 orders of magnitude smaller than their respective rate constants for desorption from single bilayer vesicles. In addition, activation energies for cell uptake were essentially identical to the respective activation energies for desorption of PAH from phosphatidylcholine vesicles, confirming the mechanistic similarity of the two processes.     

Effect of purified epoxide hydrolase on metabolic activa-tion and binding of benzo(a)pyrene to exogenous DNA. Shift of the activation pathway

The effect of purified epoxide hydrolase (E.C. 3.3.2.3) on the binding of benzo(a)pyrene metabolites 9-hydroxybenzo(a)pyrene and 7,8-dihydro-7,8-dihydroxybenzo(a)pyrene to DNA catalyzed by cytochrome P 448 from liver microsomes of methylcholanthrene pretreated rats has been investigated. The total binding and the major binding species derived from 9-hydroxybenzo(a)pyrene were strongly inhibited by the presence of purified epoxide hydrolase and the species derived from 7,8-dihydro-7,8-dihydroxybenzo(a)pyrene was slightly increased. By modifying the balance between cytochrome P 448 and epoxide hydrolase it is possible to shift quantitatively the binding of these two main reactive intermediates to DNA.     

The strong hepatocarcinogenicity of the electrophilic and mutagenic metabolite 6-sulfooxymethylbenzo[a]pyrene and its formation of benzylic DNA adducts in the livers of infant male B6C3F1 mice

6-Hydroxymethylbenzo[a]pyrene was activated to an electrophilic and mutagenic sulfuric acid ester metabolite by rat and mouse liver sulfotransferase activity. The intrinsic mutagenicity of this reactive ester, 6-sulfooxymethylbenzo[a]pyrene, was inhibited by glutathione and glutathione S-transferase. A single i.p. dose of 2.5 nmol/g body wt of 6-sulfooxymethylbenzo[a]pyrene in infant male B6C3F1 mice induced liver tumors in 35 of 36 mice at 10 months with an average multiplicity of 4.4. A comparable dose of the parent hydrocarbon, 6-hydroxymethylbenzo[a]pyrene, was only a tenth as active. The electrophilic sulfuric acid ester produced high levels of benzylic DNA adducts in the livers of these mice that accounted for about 80% of the total DNA adducts. These results strongly suggest that this sulfuric acid ester is an important ultimate electrophilic and carcinogenic metabolite in carcinogenesis by 6-hydroxymethylbenzo[a]pyrene and possibly even by 6-methylbenzo[a]pyrene and benzo[a]pyrene in mouse liver.     

Evaluation of spin trapping agents and trapping conditions for detection of cell-generated reactive oxygen species

Electron paramagnetic resonance with spin trapping is a useful technique to detect reactive oxygen species, such as superoxide radical anion (O2*-), a key species in many biological processes. We evaluated the abilities of four spin traps in trapping cell-generated O2*-: 5-tert-butoxycarbonyl-5-methyl-1-pyrroline N-oxide (BMPO), 2-diethoxyphosphoryl-2-phenethyl-3,4-dihydro-2H-pyrrole N-oxide (DEPPEPO), 5-diethoxyphosphoryl-5-methyl-1-pyrroline N-oxide (DEPMPO), and 5,5-dimethyl-1-pyrroline N-oxide (DMPO). Optimal experimental conditions for obtaining maximal signal intensity of O2*- adduct in a cellular system were first studied. The maximal intensities of BMPO, DEPMPO, and DMPO adducts were similar while DEPPEPO did not trap cell-generated O2*- induced by 1,6-benzo[a]pyrene quinone in a human mammary epithelial cell line (MCF-10A). BMPO and DEPMPO adducts were more stable, considering the stability of their maximal signal, than DMPO adduct in the tested cellular systems. In addition, we observed that O2*- spin adducts were reduced to their corresponding hydroxyl adducts in the cellular system. The selection of optimal spin trap in trapping cell-generated O2*- is discussed.     

Genotoxic activity of two furan analogues of benzo[a]pyrene and their 2-nitro derivatives

We measured the genotoxic activities in two bacterial tests, the Salmonella/histidine assay (a reverse mutation assay) and the SOS Chromotest (an assay for SOS induction in E. coli), of two pairs of isomeric furan analogues of benzo[a]pyrene: pyreno[1,2-b]furan (R7490) and pyreno[2,1-b]furan (R7692) and their 2-nitro derivatives, 8-nitro-pyreno[1,2-b]furan (R7489) and 8-nitro-pyreno[2,1-b]furan (R7691). We found that: For all 4 compounds, the responses were correlated in the two tests. For the 2-nitro derivatives, R7489 and R7691, the responses were extremely high, reaching SOS-inducing potencies of 5.2 X 10(3) and 10(5)/nmole in the SOS Chromotest and mutagenic potencies of 6.3 X 10(4) and 3.7 X 10(7) revertants/nmole in the Salmonella/histidine assay (strain TA98), respectively; the responses were only slightly decreased in nitroreductase-deficient strains. The responses to the two pyrenofurans were increased in the presence of an "activating mixture" but were still lower than that to benzo[a]pyrene. In contrast to benzo[a]pyrene and pyreno[2,1-b]furan (R7692), pyreno[1,2-b]furan (R7490) also gave a response in the absence of an "activating mixture". (5) Compounds with the oxygen heteroatom within the "bay region" gave lower responses than their isomers with the oxygen heteroatom outside the "bay region".