Genotoxic activation of 2-phenylbenzotriazole-type compounds by human cytochrome P4501A1 and N-acetyltransferase expressed in Salmonella typhimurium umu strains

Four 2-phenylbenzotriazole (PBTA)-type compounds (PBTA-4, PBTA-6, PBTA-7, and PBTA-8) were identified as major mutagens in blue cotton/rayon-adsorbed substances collected at sites below textile dyeing factories or municipal water treatment plants treating domestic waste and effluents from textile dyeing factories in several rivers in Japan. The main purpose of this study is to understand the basis of the roles of human cytochrome P450 (CYP) and N-acetyltransferases (NATs) in genotoxic activation of PBTA derivatives. We compared the induction of umuC gene expression as a measure of genotoxicity using Salmonella typhimurium TA1535/pSK1002 (parental strain), NM2009 (bacterial O-acetyltransferase-overexpressing strain) established in our laboratories. PBTA-4, PBTA-6, PBTA-7, and PBTA-8 induced the umuC gene expression more strongly in the bacterial O-acetyltransferase-overproducing strain than in the parental strain in the presence of rat S9 mix. We determined the activation of PBTA derivatives by cDNA-based recombinant (Trichoplusia ni) systems expressing human or rat cytochrome P450 enzymes (P450 or CYP) and NADPH-P450 reductase using S. typhimurium NM2009. The results showed that human recombinant CYP1A1 enzyme was much more active than CYP1A2 and CYP3A4 in the genotoxic activation of PBTA-4, PBTA-6, PBTA-7, and PBTA-8. Similarly, rat recombinant CYP1A1 enzyme catalyzed the activation of these chemicals at high rates. alpha-Naphthoflavone, a known inhibitor of CYP1A1, was found to inhibit genotoxic activation caused by PBTA derivatives. We further determined the activation of PBTA derivatives using S. typhimurium NM6001 (human NAT1-expressing strain), S. typhimurium NM6002 (human NAT2-expressing strain), and S. typhimurium NM6000 (O-AT-deficient parent strain) in the presence of S9 mix. PBTA-4 showed almost similar sensitivity in the NAT1-expressing strain and the NAT2-expressing strain, although NAT2-expressing strain exhibited relatively higher sensitivity to PBTA-6, PBTA-7, and PBTA-8 than NAT1-expressing strain. The results support the view that O-acetylation by human NAT1 and NAT2 enzymes is involved in the genotoxic activation of PBTA compounds. These results demonstrate for the first time that human P4501A1 and NATs (NAT1 and NAT2) contribute significantly to the activation of PBTA-type compounds to genotoxic metabolites that induce umuC gene expression in S. typhimurium tester strains.     

Analysis of the involvement of human N-acetyltransferase 1 in the genotoxic activation of bladder carcinogenic arylamines using a SOS/umu assay system

Human acetyltransferase genes NAT1 or NAT2 were expressed in a Salmonella typhimurium strain used to detect the genotoxicity of bladder carcinogens. To clarify whether the human and rodent bladder carcinogenic arylamines are activated via either NAT1 or NAT2 to cause genotoxicity, a SOS/umu genotoxicity assay was used, with the strains S. typhimurium NM6001 (NAT1-overexpressing strain), S. typhimurium NM6002 (NAT2-overexpressing strain), and S. typhimurium NM6000 (O-AT-deficient parent strain). Genotoxicity was measured by induction of SOS/umuC gene expression in the system, which contained both an umuC"lacZ fusion gene and NAT1 or NAT2 plasmids. 4-Aminobiphenyl, 2-acetylaminofluorene, beta-naphthylamine, o-tolidine, o-anisidine, and benzidine exhibited dose-dependent induction of the umuC gene in strain NM6001. Although the induction of umuC by these chemicals was observed in the NM6002 strain, the induction was considerably lower than in the NM6001 strain. In the parent strain, NM6000, none of these compounds induced umuC gene expression. We also determined activation of these chemicals by recombinant human cytochrome P450 (P450 or CYP) 1A2 enzyme in three S. typhimurium tester strains. The activation of the chemicals was stronger in the NM6001 strain than that in NM6002. The specific NAT1 inhibitor 5-iodosalicylic acid inhibited umuC gene expression induced by aromatic amines used. These results could provide evidence that the bladder carcinogenic aromatic amines are mainly activated by the NAT1 enzyme to produce DNA damage rather than NAT2. The NAT1-overexpressing strain can be used to determine the genotoxic activation of bladder carcinogenic arylamines in the umu test and could provide a tool for predicting the carcinogenic potential of arylamines.     

Functional complementation between chromosomal and plasmid mutagenic DNA repair genes in bacteria

Summary The umuDC operons of Escherichia coli and Salmonella typhimurium and the analogous plasmid operons mucAB and impCAB have been previously characterized in terms of their roles in DNA repair and induced mutagenesis by radiation and many chemicals. The interrelationships of these mutagenic DNA repair operons were examined in vivo in functional tests of interchangeability of operon subunits in conferring UV resistance and UV mutability phenotypes to wild-type S. typhimurium and umu mutants of E. coli. This approach was combined with DNA and protein sequence comparisons between the four operons and a fifth operon, samAB, from the S. typhimurium LT2 cryptic plasmid. Components of the E. coli and S. typhimurium umu operons were reciprocally interchangeable whereas impCA and mucA could not function with umuC in either of these species. mucA and impB could also combine to give a mutagenic response to UV. These active combinations were associated with higher degrees of conservation of protein sequence than in other heterologous gene combinations and related to specific regions of sequence that may specify subunit interactions. The dominance of the E. coli umuD44 mutation over umuD was revealed in both wild-type E. coli and S. typhimurium and also demonstrated against impCAB. Finally interspecies transfer showed that the apparently poor activity of the S. typhimurium umuD gene in situ is not the result of an inherent defect in umuD but is due to the simultaneous presence of the S. typhimurium umuC sequence. It is suggested that the limitation of umuD activity by umuC in S. typhimurium is the basis of the poor induced mutability of this organism.     

The mutagenicity testing of tertiary-butyl alcohol, tertiary-butyl acetate™ and methyl tertiary-butyl ether in Salmonella typhimurium

Tertiary-Butyl alcohol (TBA), tertiary-butyl acetate™ (TBAc™) and methyl tertiary-butyl ether (MTBE) are chemicals to which the general public may be exposed either directly or as a result of their metabolism. There is little evidence that they are genotoxic; however, an earlier publication reported that significant results were obtained in Salmonella typhimurium TA102 mutagenicity tests with both TBA and MTBE. We now present results of testing these chemicals and TBAc™ against S. typhimurium strains in two laboratories. The emphasis was placed on testing with S. typhimurium TA102 and the use of both dimethyl sulphoxide and water as vehicles. Dose levels up to 5000 μg/plate were used and incubations were conducted in both the presence and absence of liver S9 prepared from male rats treated with either Arochlor 1254 or phenobarbital-β-naphthoflavone. The experiments were replicated, but in none of them was a significant mutagenic response observed, thus the current evidence indicates the TBA, TBAc™ and MTBE are not mutagenic in bacteria.     

构建酿酒酵母细胞工厂高效合成摩尔酸

[目的] 摩尔酸作为齐墩果烷型三萜化合物具有抗HIV、抗炎等多种生物学活性,其前体物质是计曼尼醇,本研究基于合成生物学策略构建酿酒酵母细胞工厂高效合成摩尔酸。[方法] 运用CRISPR/Cas9技术,首先分别整合不同来源的氧化鲨烯环化酶（OSCs）,筛选高产计曼尼醇底盘细胞;进一步异源表达长春花来源的细胞色素P450氧化酶（CYP716AL1）和麻风树来源的细胞色素P450还原酶（JcCPR）,构建摩尔酸生物合成途径;并通过CYP716AL1和不同来源的CPR适配研究以及过表达甲羟戊酸（MVA）代谢途径中关键酶的方式提高摩尔酸的产量。[结果] 整合苹果来源的氧化鲨烯环化酶MdOSC获得的重组菌株计曼尼醇产量最高,达68.3 mg/L;以此为底盘细胞进一步整合CYP716AL1和JcCPR实现了摩尔酸的生物合成,产量为15.0 mg/L;共表达CYP716AL1和拟南芥来源的CPR获得的重组菌株摩尔酸产量最高,达到24.3 mg/L;最后过表达MVA代谢途径中的关键酶法呢基焦磷酸合酶（ERG20）和鲨烯环氧酶（ERG1）,获得的重组菌株摩尔酸产量高达34.1 mg/L。[结论] 本研究实现了摩尔酸的高效生物合成,为构建高产齐墩果烷型三萜酿酒酵母细胞工厂提供了理论和技术依据。     

Bioactivation of diesel exhaust particle extracts and their major nitrated polycyclic aromatic hydrocarbon components, 1-nitropyrene and dinitropyrenes, by human cytochromes P450 1A1, 1A2, and 1B1

The genotoxicities of four samples of diesel exhaust particle (DEP) extracts (DEPE) and nine nitroarenes found in DEPE were investigated after activation catalyzed by human cytochrome P450 (P450) family 1 enzymes co-expressed with NADPH-cytochrome P450 reductase (NPR) in Escherichia coli membranes. The DEPE samples induced umu gene expression in Salmonella typhimurium TA1535/pSK1002 without any P450 system and were further activated by human P450 1B1/NPR membranes. Moderate activation of the DEPE sample by P450 1A2/NPR membranes was also observed, but not by either P450 1A1/NPR or NPR membranes. 1-Nitropyrene (1-NP) was strongly activated by human P450 1B1/NPR membranes. 1,8-Dinitropyrene (1,8-DNP) was most highly activated by P450 1A1 and 1B1 systems for the three DNPs tested. In contrast, 1,3-DNP was inactivated by P450 1A1/NPR, 1A2/NPR, and 1B1/NPR systems and slightly activated by NPR membranes. 2-Nitrofluoranthene (2-NF) and 3-nitrofluoranthene (3-NF) showed activities similar to 1-NP after bioactivation by P450 1B1/NPR membranes. However, the genotoxicities of 6-nitrochrysene, 7-nitrobenz[a]anthracene, and 6-nitrobenzo[a]pyrene were all weak in the present assay system. Apparent genotoxic activities of DEPE were very low compared with standard nitroarenes in the presence of P450s, possibly because unknown component(s) of DEPE had inhibitory effects on the bioactivation of 1-NP and 1,8-DNP catalyzed by human P450 1B1. These results suggest that environmental chemicals existing in airborne DEP, in addition to 1-NP, 1,6-DNP, 1,8-DNP, 2-NF, and 3-NF, can be activated by human P450 1B1. Biological actions of air pollutants such as nitroarenes to human extrahepatic tissues may be of concern in tissues in which P450 1B1 is expressed.     

<Emphasis Type="Italic">Salmonella typhimurium</Emphasis> engineered to produce CCL21 inhibit tumor growth

Intravenously-applied bacteria tend to accumulate in tumors and can sporadically lead to tumor regression. Systemic administration of attenuated Salmonella typhimurium is safe and has shown no significant adverse effects in humans. The purpose of this study was to test the hypothesis that engineering S. typhimurium to express a chemokine, CCL21, would increase anti-tumor activity. We engineered an attenuated strain of S. typhimurium to produce the chemokine CCL21. Attenuated S. typhimurium expressing CCL21 significantly inhibited the growth of primary tumors and pulmonary metastases in preclinical models of multi-drug-resistant murine carcinomas, while control bacteria did not. Histological analysis of tumors showed marked inflammatory cell infiltrates in mice treated with CCL21-expressing but not control bacteria. Levels of cytokines and chemokines known to be induced by CCL21 [e.g., interferon-γ (INFγ), CXCL9, and CXCL10] were significantly elevated in tumors of mice treated with CCL21-expressing but not control S. typhimurium. The anti-tumor activity was found to be dependent on CD4- and CD8-expressing cells, based on antibody-mediated in vivo immuno-depletion experiments. Anti-tumor activity was achieved without evidence of toxicity. In summary, chemokine-expressing, attenuated bacteria may provide a novel approach to cancer immunotherapy for effective and well-tolerated in vivo delivery of immunomodulatory proteins. Markus Loeffler and John C. Reed should be considered senior authors.     

Toxicity of the heterocyclic amine batracylin: investigation of rodent N-acetyltransferase activity and potential contribution of cytochrome P450 3A

The heterocyclic amine, batracylin (BAT), is genotoxic and several lines of evidence suggest that acetylation is one step in the formation of a DNA-damaging product. The variation in susceptibility to BAT toxicity observed between rats and mice has also been linked to the acetylated product. BAT N-acetyltransferase (NAT) activity was determined in rat and mouse hepatic cytosols. Formation of acetylbatracylin (ABAT) was 6 times greater in F-344 hepatic samples compared to either mouse strain, while hepatic BAT NAT activities were similar in C57B1/6 and A/J mice. No deacetylation of ABAT was detected. In contrast, 2-aminofluorene NAT activity in C57B1/6 hepatic cytosol was twice that of the A/J strain and activities in both strains of mice were greater than in rat. Deacetylation of 2-acetylaminofluorene was detected in both species with enzyme activities in C57B1/6>A/J>F-344. Hepatocytes from the F-344 rats, the species most sensitive to BAT toxicity, were used to investigate the contribution of other biotransformation reactions to BAT cytotoxicity. Leakage of cellular lactate dehydrogenase was greater in hepatocytes from male rats than from females, increased on in vivo exposure to dexamethasone, and decreased in the presence of troleandomycin, suggesting that CYP3A-mediated biotransformation of BAT is involved in the formation of a cytotoxic product. When phenol red, a substrate for UDP-glucuronsyltransferase (UDPGT), was absent from the medium, BAT cytotoxicity was reduced. These data are consistent with a role for NAT, CYP, and UDPGT in the biotransformation of BAT. This revised version was published online in July 2006 with corrections to the Cover Date.     

Antimutagenic activity of soybeans fermented with basidiomycetes in Ames/Salmonella test

Soybeans fermented with either Phellinus igniarius or Agrocybe cylindracea inhibited the mutagenicity of the directly-acting mutagens: 4-nitro-o-phenylenediamine on Salmonella typhimurium strain TA 98 and NaN₃ on S. typhimurium strain TA 100; and indirectly-acting mutagens, 2-aminofluorene using strain TA 98 and benzo[a]pyrene using strain TA 100, in the presence of a supernatant solution from mammalian hepatic microsomes.     

Synthesis of 2-phenylbenzotriazole-type mutagens, PBTA-5 and PBTA-6, and their detection in river water from Japan

We previously determined the chemical structures of four 2-phenylbenzotriazole mutagens (PBTA-1, -2, -3 and -4) in blue rayon-adsorbed material from the Nishitakase River in Kyoto prefecture and the Nikko River in Aichi prefecture in Japan. On the basis of a synthesis study, these four PBTA derivatives were deduced to have originated from corresponding dinitrophenylazo dyes by reduction and chlorination. 2-[(2-Bromo-4,6-dinitrophenyl)azo]-5-[bis(2-acetoxyethyl) amino]-4-methoxyacetanilide (Color Index Name, Disperse Blue 79:1; CAS Registry Number, 75497-74-4) is a very common dinitrophenylazo dye used in textile dyeing factories. In the present study, we synthesized 2-[4-[bis(2-acetoxyethyl)amino]-2-(acetylamino)-5-methoxyphenyl]-5-amino-7-bromo-4-chloro-2H-benzotriazole (PBTA-5) from Disperse Blue 79:1 by reduction with sodium hydrosulfite and subsequent chlorination with sodium hypochlorite. On hydrolysis of PBTA-5 with alkali, 2-[2-(acetylamino)-4-[bis(2-hydroxyethyl)amino]-5-methoxyphenyl]-5-amino-7-bromo-4-chloro-2H-benzotriazole (PBTA-6) was obtained. Both PBTA-5 and -6 were potent mutagens, inducing 723,000 revertants and 485,000 revertants per microgram of Salmonella typhimurium YG1024, respectively, in the presence of S9 mix. To clarify whether PBTA-5 and -6 exist in the environment, water samples were collected from five rivers flowing through regions where textile dyeing industries are developed. PBTA-6 was detected at levels of 3–134 ng/g blue rayon in all water samples that were examined. On the other hand, the amount of PBTA-5 in the samples was less than the detection limit.     

Induction of SCEs in CHL cells by dichlorobiphenyl derivative water pollutants, 2-phenylbenzotriazole (PBTA) congeners and river water concentrates

We recently identified dichlorobiphenyl (DCB) derivatives and 2-phenylbenzotriazole (PBTA) congeners as major mutagenic constituents of the waters of the Waka River and the Yodo River system in Japan, respectively. In this study we examined sister chromatid exchange (SCE) induction by two dichlorobiphenyl derivatives, 3,3′-dichlorobenzidine (DCB, 4,4′-diamino-3,3′-dichlorobiphenyl) and 4,4′-diamino-3,3′-dichloro-5-nitrobiphenyl (5-nitro-DCB); three PBTA congeners, 2-[2-(acetylamino)-4-[bis(2-methoxyethyl)amino]-5-methoxyphenyl]-5-amino-7-bromo-4-chloro-2H-benzotriazole (PBTA-1), 2-[2-(acetylamino)-4-[N-(2-cyanoethyl)ethylamino]-5-methoxyphenyl]-5-amino-7-bromo-4-chloro-2H-benzotriazole (PBTA-2), and 2-[2-(acetylamino)amino]-4-[bis(2-hydroxyethyl)amino]-5-methoxyphenyl]-5-amino-7-bromo-4-chloro-2H-benzotriazole (PBTA-6); and water concentrates from the Waka River in Chinese hamster lung (CHL) cells. Concentration-dependent induction of SCE was found for all DCBs and PBTAs examined in the presence of S9 mix, and statistically significant increases of SCEs were detected at 2 μg per ml of medium or higher concentrations. SCE induction of MeIQx was examined to compare genotoxic activities of these water pollutants. According to the results, a ranking of the SCE-inducing potency of these compounds is the following: 5-nitro-DCB ≈ MeIQx > PBTA6 > PBTA-1 ≈ PBTA-2 > DCB.Water samples collected at a site at the Waka River showed concentration-related increases in SCEs at 6.25–18.75 ml-equivalent of river water per ml of medium with S9 mix. The concentrations of 5-nitro-DCB and DCB in the river water samples were from 2.5 to 19.4 ng/l and from 4100 to 18,900 ng/l, respectively. However, these chemicals showed only small contribution to SCE induction by the Waka River water.     

High efficiency transformation of Salmonella typhimurium and Salmonella typhi by electroporation

Summary Salmonella typhimurium and S. typhi were transformd with high efficiency by electroporation. Transformation efficiencies of up to 10¹⁰ transformants per g of pBR322 were obtained. In contrast to chemical transformation methods, neither the smooth lipopolysaccharide of S. typhimurium nor the Vi capsular polysaccharide of S. typhi greatly affected transformation efficiency. The introduction of a galE mutation slightly improved transformation efficiency in S. typhimurium (< tenfold) while the Vi antigen of S. typhi had no detectable effect. The transformation efficiency of S. typhimurium with DNA derived from Escherichia coli was increased greatly by the removal of the hsd restriction system (100-fold). Under these conditions electroporation can be used for the routine and direct transformation of Salmonella strains with partially purified (alkaline lysis) plasmid DNA from E. coli.     

Aloe-emodin-induced DNA fragmentation in the mouse in vivo comet assay

Aloe-emodin (AE) and derivatives may be present as undesired components co-extracted during extraction of plants containing anthraquinonic derivatives for preparation of diacetylrhein. AE is a well-known in vitro mutagen, but up to now it failed to induce any clear in vivo genotoxic activity in the chromosome aberration assay in rat bone marrow or the in vivo/in vitro UDS test in liver. However, the two target organs noted during rodent carcinogenicity studies with danthron and emodin, two other well-known anthraquinone derivatives, are the colon and the kidney. Therefore, the choice of the organs for testing the genotoxicity of AE, i.e. bone marrow and liver, may be considered inadequate to demonstrate a possible in vivo genotoxic activity. In this context, the in vivo mouse comet assay was performed on both isolated kidney and colon cells in order to demonstrate a possible organospecific genotoxicity after oral administration of AE. Concurrently, the Ames test and the in vitro micronucleus assay with TK6 human lymphoblastoid cells were performed in their microscale version both with S9 from Aroclor 1254-induced liver or kidney, and without S9.AE induced primary DNA damage in the liver and in the kidney as observed between 3 and 6 h after two oral administrations at 500, 1000 and 2000 mg/kg bw, underlining an in vivo genotoxic mechanism of action. Furthermore, AE induced a clear genotoxic activity both in the Salmonella typhimurium strains TA1537 and TA98 and in the in vitro micronucleus assay in the absence as well as in the presence of metabolic activation. As no significant variation in the genotoxic activity of AE was noted when using either liver or kidney S9-mix, it seems that no quantitatively and/or qualitatively specific renal metabolism occurs. The kidney may be a target organ of AE as it is the major route of excretion. Under such conditions the separation of AE components should take place and the residual content of undesired AE derivatives should be made as low as reasonably achievable. AE present in plant extracts should be considered as an in vivo genotoxin and this property should be taken into account in the risk assessment for human exposure.     

Identification of putative ancestors of the multidrug-resistant <Emphasis Type="Italic">Salmonella enterica</Emphasis> serovar typhimurium DT104 clone harboring the<Emphasis Type="Italic"> Salmonella</Emphasis> genomic island 1

The origin of multidrug-resistant Salmonella enterica serovar typhimurium (S. typhimurium) harboring the Salmonella Genomic Island 1 (SGI1), which was detected for the first time in the mid-1980s is unknown. In this study, we performed microarray genomotyping of four multidrug-resistant SGI1 positive strains and found that unlike the S. typhimurium LT2 strain, the multidrug-resistant strains lacked genes STM0517-0529 allowing the utilization of allantoin as a sole nitrogen source. We extended this observation by PCR screening of additional 120 S. typhimurium field strains and found that this locus was absent in all SGI1 positive and also in 24% of SGI1 negative strains, which were proposed to be the original recipients of SGI1. To prove this hypothesis, we compared the STM0517-0529 negative strains (with or without the SGI1) by PFGE and PCR prophage typing and found that 8 out of 11 of the SGI1 negative strains and 17 out of 22 SGI1 positive strains were of identical PFGE pattern and PCR prophage pattern, while this specific pattern was never observed among STM0517-0529 positive strains. We therefore propose that a lineage of the S. typhimurium DT104 sensitive strain first lost the ability to metabolize allantoin and then acquired SGI1.     

Bacteriophage P22 as a vehicle for transducing cosmid gene banks between smooth strains of Salmonella typhimurium: use in identifying a role for aroD in attenuating virulent Salmonella strains

Summary A cosmid gene bank of the virulent Salmonella typhimurium C5 was constructed in Escherichia coli K12. The bank was repackaged into bacteriophage heads and transduced into the semi-rough S. typhimurium strain AS68 which expresses the LamB receptor protein. Approximately 6000 ampicillin-resistant transductants were pooled and used as host for the propagation of bacteriophage P22. The P22 lysate was able to transduce cosmid recombinants to smooth strains of S. typhimurium and individual transductants were selected which complemented various S. typhimurium auxotrophic mutations. A stable mutation was introduced into the aroD gene of S. typhimurium C5. The resulting aroD ^- mutant, named CU038, was highly attenuated compared with the wild-type parent strain and BALB/c mice immunised orally with CU038 were well protected against challenge with the virulent C5 parental strain. Using the cosmid bank repackaged into bacteriophage P22 heads it was possible to isolate cosmid recombinants that could complement the aroD mutation of CU038 either by in vitro selection using minimal medium or in vivo selection for restoration of virulence in BALB/c mice. Repackaged P22 cosmid banks could provide a simple system for selecting in vivo for Salmonella virulence determinants. A Salmonella typhi strain harbouring mutations in aroA and aroD was constructed for potential use as a live oral typhoid vaccine in humans.     

ThenadB gene ofSalmonella typhimurium complements the nicotinic acid auxotrophy ofShigella flexneri

Shigella species are characteristically nicotinic acid (NA) auxotrophs. The invasiveS. flexneri strain M90T, transformed with the multicopy plasmid pZT349 encoding thenadB gene ofSalmonella typhimurium, can grow in minimal glucose medium without exogenous NA, whereas, M90T containing the control vector, pUC18 does not, suggesting that this species lacksl-aspartic acid oxidase, the first enzyme in the de novo NAD biosynthetic pathway. The estimated growth rate of strain M90T (pZT349) in HeLa cells was identical to that of M90T (pUC18), indicating the available intracellular concentration of NA is not limiting for bacterial growth.     

Role of anaerobiosis in virulence of Salmonella typhimuirium

Intestinal pathogens are exposed to various stress conditions during their infectious cycle. Anaerobiosis, one of such hostile condition, is offered by the host within gut and intestinal lumen, where survival, multiplication and entry into intestinal epithelial cells is priority for the invading pathogen. In the present study, a virulent strain of S. typhimurium (1402/84) was grown under anaerobic conditions and its virulence characteristics such as host cell binding, penetration and intracellular survival were compared with aerobic S. typhimurium. Anaerobically grown S. typhimurium showed significantly higher binding to immobilized mice enterocytes and intestinal mucus as compared to bacteria grown aerobically. Anaerobic bacteria also showed an early penetration of mucus and subsequent binding to underlying immobilized enterocytes, in vitro. Anaerobic S. typhimurium exhibited increased intracellular survival within spleen macrophages of mice and caused significantly higher fluid accumulation in ligated rabbit ileal loops as compared to aerobic bacteria. LD₅₀ of anaerobic S. typhimurium was also observed to be 2 fold lower when compared to aerobic bacteria. Cell surface hydrophobicity of anaerobic S. typhimurium was also found to be significantly higher than aerobic bacteria. Thus, it appears that exposure of S. typhimurium to anaerobiosis results in its enhanced virulence, adhesion and penetration of host cells.     

Selective cloning of genes encoding RNase H from Salmonella typhimurium, Saccharomyces cerevisiae and Escherichia coli rnh mutant

Summary We have cloned genes encoding RNase H from Escherichia coli rnh mutants, Salmonella typhimurium and Saccharomyces cerevisiae. Selection was accomplished by suppression of the temperature-sensitive growth phenotype of Escherichia coli strains containing the rnh-339::cat and either recB270 (Ts) or recC271 (Ts) mutations. RNases H from E. coli and S. typhimurium contained 155 amino acid residues and differed at only 11 positions. The S. cerevisiae and E. coli RNases H were about 30% homologous. A comparison of the amino acid sequences of several RNases H from cellular and retroviral sources revealed some strongly conserved regions as well as variable regions; the carboxyl-terminus was particularly variable. The overlapping, divergent promoter gene organization found in E. coli was observed to be present in S. typhimurium.     

Phylogenetic analysis of Bacillus P450 monooxygenases and evaluation of their activity towards steroids

Cytochrome P450 (P450) open reading frames (ORFs) identified in genome sequences of Bacillus species are potential resources for new oxidation biocatalysts. Phylogenetic analysis of 29 Bacillus P450 ORFs revealed that the P450s consist of a limited number of P450 families, CYP102, CYP106, CYP107, CYP109, CYP134, CYP152, and CYP197. Previously, we identified the catalytic activities of three P450s of Bacillus subtilis towards steroids by rapid substrate screening using Fourier transform ion cyclotron resonance mass spectrometry (FT-ICR/MS). Here, we further applied this method to evaluate the activity of Bacillus cereus P450s towards steroids. Five P450 genes were cloned from B. cereus ATCC 10987 based on its genomic sequence and were expressed in Escherichia coli. These P450s were reacted with a mixture of 30 compounds that mainly included steroids, and the reaction mixtures were analyzed using FT-ICR/MS. We found that BCE_2659 (CYP106) catalyzed the monooxygenation of methyltestosterone, progesterone, 11-ketoprogesterone, medroxyprogesterone acetate, and chlormadinone acetate. BCE_2654 (CYP107) monooxygenated testosterone enanthate, and BCE_3250 (CYP109) monooxygenated testosterone and compactin. Based on the phylogenetic relationship and the known substrate specificities including ones identified in this study, we discuss the catalytic potential of Bacillus P450s towards steroids.