Effect of denture cleaner using ozone against methicillin-resistant Staphylococcus aureus and E. coli T1 phage.

We examined the bactericidal and virucidal effectiveness of a denture cleaner that uses ozone (ozone concentration, 10 ppm) against methicillin-resistant Staphylococcus aureus (MRSA) and T1 phage, respectively. In the bactericidal activity test, with the ozone supply turned on, the number of bacteria was 3.1 x 10(3) CFU/mL at the beginning of the experiment, fell to 1.0 x 10(0) CFU/mL 10 min later, and was 1.0 x 10(0) CFU/mL or less afterwards. In contrast, when the ozone supply was cut off (air bubble only), the number of bacteria was 3.4 x 10(3) CFU/mL at the beginning of the experiment, and had fallen to 3.0 x 10(3) CFU/mL 60 min later (no statistically significant difference). In the virucidal activity test, the number of phages was 1.2 x 10(6) PFU/mL before ozone treatment, fell to about 1/10 of that number 10 min later, and was 6.1 x 10(0) PFU/mL 40 min later. These results indicate that the use of ozone in this denture cleaner is effective against MRSA and viruses.

Synthesis and biological properties of some 2H-1-benzopyrano[7,8-b][1,4]benzodioxin-2-ones.

The synthesis of 2H-benzopyrano[7,8-b][1,4]tetrahydrobenzodioxin-2-ones and 2H-benzopyrano [7,8-b][1,4]benzodioxin-2-ones is reported. This class of compounds, prepared with the aim of obtaining new monofunctional photosensitizing drug, appears to be ineffective upon UVA irradiation but shows a moderate but significant activity in the dark.

Synthesis and photobiological properties of 3-acylangelicins, 3-alkoxycarbonylangelicins and related derivatives.

Convenient synthesis of 3-acyl-2H-furo[2,3-h]-1-benzopyran-2-ones, esters of 2-oxo-2H-furo[2,3-h]-1-benzopyran-3-carboxylic acid and 2H-furo[2,3-h]-1-benzopyran-3-carboxamides was accomplished via aromatization of the adducts obtained by a reaction between (E)-5-dimethyl-aminomethylene-6,7-dihydrobenzofuran-4(5H)-one and the appropriate acylacetate or dialkyl malonate. These compounds are angelicin derivatives which were prepared with the aim of obtaining intrinsically monofunctional drugs for photochemotherapy, with only one photoreactive site in their molecule. The new angelicins appear to be free of the known phototoxicity of furocoumarins on the skin and at a genetic level. The 3-carboxylic esters showed significant antiproliferative activity in Ehrlich ascites cells and T2 bacteriophage; the other derivatives were only slightly effective. The features of these compounds are such that they represent a new model for non-toxic agents for photochemotherapy.

[Inhibition by chitosan of productive infection of T-series bacteriophages in the Escherichia coli culture]. / Ingibirovanie khitozanom produktivnoi infektsii bakteriofagov T-serii v kul'ture Escherichia coli.

The possibility of the use of chitosan aminopolysaccharide (poly-D-glucosamine) and its two salts--acetate and hydrochloride--to prevent phase infection of the Escherichia coli culture, strain B1, was studied. It was shown that chitosan inhibited productive infection caused by the bacteriophages T2 and T7, the efficiency of inhibition of both bacteriophages depending directly on the final concentration of chitosan in a medium. Neither chitosan nor its salts significantly prevented the growth of the bacterial culture.

Phosphate efflux through the channels formed by colicins and phage T5 in Escherichia coli cells is responsible for the fall in cytoplasmic ATP.

Previous studies have shown that channel formation in the cytoplasmic membrane of Escherichia coli by colicin A and phage T5 leads to an efflux of cytoplasmic potassium and to a membrane depolarization. Here we show that upon opening of these channels, the intracellular ATP concentration is decreased to 10% of its original value in < 5 min. ATP is not found in the external medium, but is hydrolyzed in the cytoplasm into ADP and AMP. The rate of ATP hydrolysis depends on the number of channels and on their activity. ATP hydrolysis takes place if the F1F0-ATPase is absent or inhibited. Depolarization of the inner membrane is not the main cause of ATP hydrolysis. Opening of the phage and colicin channels also leads to an efflux of inorganic phosphate. Conditions that prevent the efflux of phosphate (i.e. depolarization of the cells and high external phosphate concentration) prevent ATP hydrolysis. We propose that ATP is hydrolyzed as a consequence of a shift in the ATP equilibrium due to the efflux of phosphate through the channels. The consequences for the cells of this ATP depletion are discussed.

2-substituted 1H-pyrrolo [3,2-h] quinoline derivatives: synthesis and aspects of their biological activity.

Certain 2-substituted 1H-pyrrolo [3,2-h] quinolines have been prepared and their biological activity in mammalian cells and in some microorganisms have been studied. These compounds represent a simplified ellipticine heterocyclic moiety: in addition they have a different ring condensation, leading to an angular molecular structure instead of a linear one. In mammalian cells all compounds appeared to be able of inducing an antiproliferative effect and an extensive DNA fragmentation, similarly to ellipticine, even if to a reduced extent. The new derivatives behaved in a comparable way also on some microorganisms, such as T2 bacteriophage (which appears to be less sensitive than mammalian cells) and in mutagenesis tests carried out with E. coli WP2 TM9 and S. typhimurium TA 98, which are reverted by base substitution and frame-shift mutagens, respectively. Similarly to the reference compound, all ellipticine analogues appeared to be no mutagenic. The obtained results suggest that they induce the antiproliferative activity in mammalian cells mainly as topoisomerase inhibitors, similarly to ellipticine itself. Therefore, they represent an interesting model to design new potential anticancer drugs.

Differential inhibition of abortive transcription initiation at different promoters catalysed by E. coli RNA polymerase. Effect of rifampicin on purine or pyramidine-initiated phosphodiester synthesis.

The action of rifampicin on the RNA chain initiation catalysed by E. coli RNA polymerase over different templates has been studied. The steady-state formation of dinucleoside tetraphosphate under the condition of abortive initiation reaction was assayed. It was observed that rifampicin shows a spectrum of inhibitory effects on transcription initiation at different promoters. At two different promoters with a pyrimidine nucleotide at the 5'-initiation site, e.g. rrnB P2 having CTP and lacP2 having UTP, the effect of rifampicin on the abortive synthesis of the first phosphodiester bond was found to be total, even at low concentrations of the antibiotic. On the other hand, in most cases the effect of rifampicin on the abortive synthesis with a purine nucleotide at the 5'-initiation site was found to be only partial, with the exception of the T7A2 promoter, where rifampicin stimulates the abortive synthesis of pppGpC. It was also noticed that if there was a purine nucleotide at the second position of a dinucleotide which had already been synthesised by the enzyme, then further addition of the third nucleotide was not blocked in the presence of rifampicin. It appeared that a purine nucleotide at the initiation site or at the product terminus site of a translocated dinucleotide behaved similarly towards rifampicin. In the same way, if this position was occupied by a pyrimidine, rifampicin would inhibit further phosphodiester synthesis, even at a very low concentration. The stimulatory effect of rifampicin at the T7A2 promoter was presumably because here a ternary complex containing the promoter, enzyme and the abortive transcript pppGpC was initially stable, but dissociated upon addition of rifampicin, resulting in the rapid turn-over of the product.

Genotoxic effectivity--comparison of 36 nitrated furan and arenofuran derivatives on a quantitative scale. Statistical comparison of T7 and other short-term tests.

Thirty-six nitrated furan and arenofuran derivatives were measured and quantitatively characterized by the T7 inactivation test. A wide range of substances previously studied allowed us to compare the collected quantitative data with those obtained by other workers using different short-term tests. Based on comparative statistical evaluation of these data a borderline was determined for the genotoxic effect: compounds having in our short-term test mutagenicity index (MI) values smaller than 8.0 are positive while the higher values represent negative genotoxicity. Classification of 36 nitrofuran/nitroarenofuran derivatives is given both on the basis of the quantitative genotoxicity scale and in terms of +/- on the qualitative scale. All but one compound were found to be genotoxic and the genotoxic activities of these compounds were compared with the results of other carcinogenicity or mutagenicity tests.

The photobiological activity of 5-geranoxypsoralen and its photoproducts.

5-geranoxypsoralen (Bergamottin) does not photosensitize bacteria or a bacterial virus. It does, however, photosensitize mammalian cells in tissue culture. Irradiation with either black light (300-400 nm) or fluorescent ceiling lights produced at least four photobiologically active degradation products, the chemical nature of which still remains to be elucidated. Prolonged exposure to black light resulted in the formation of inactive molecule(s).

Defective DNA injection by alkylated and nonalkylated bacteriophage T7.

DNA injection by alkylated and nonalkylated bacteriophage T7 has been analyzed by a physical method which involved Southern hybridization to identify noninjected regions of DNA. Treatment of phage with methyl methanesulfonate reduced the amount of DNA injected into wild-type Escherichia coli cells. This reduction was correlated with a decreased injection of DNA segments located on the right-hand third of the T7 genome. An essentially identical injection defect was observed when alkylated phage infected E. coli mutant cells unable to repair 3-methyladenine. Furthermore, untreated phage particles were discovered to be naturally injection-defective. Some injected all their DNA except those segments located in the rightmost 15% of the T7 genome, while other injected no DNA at all. In the presence of rifampicin, untreated phages injected only segments from the left end of the genome. These results provide direct physical evidence that T7 DNA injection is strictly unidirectional, starting from the left end of the T7 genome. The injection defect quantified here for alkylated phage is probably partially, if not totally, responsible for phage inactivation, when that inactivation is measured in wild-type E. coli cells. Since alkylated phage injected the same DNA sequences into both wild-type and repair-deficient cells, we conclude that DNA injection is independent of the host-cell's capacity for repair of 3-methyladenine residues.

Phage nucleoprotein-psoralen interaction: quantitative characterization of dark and photoreactions.

The irradiation of the phage T7 system containing psoralen as photosensitizer causes many processes, each of them leading to phage inactivation. These processes include the UV-induced photoreactions in the phage nucleic acid, and photoreactions in the nucleic acid sensitized by either psoralen or psoralen photobreakdown products. In addition the intercalation of the psoralen molecule itself in the phage nucleic acid as well as the psoralen photobreakdown products cause phage inactivation. Under appropriate experimental conditions these reactions can be studied and characterized separately. The quantitative characteristics (e.g. inactivation cross-section, action spectra and index for dark genotoxicity) are demonstrated for different linear and angular psoralens. Some theoretical and practical consequences of the results obtained are discussed.

Methylangelicins: structure activity studies on the role of methyl groups present in 3,4 and 4',5' photoreactive sites.

The effect of the introduction of one, two or three methyl groups at the level of 3,4 or 4',5' photoreactive site of angelicin, in terms of extent of intercalation and DNA-photobinding, was studied. The introduction of one methyl group both in the 3 or 4 and in 4' or 5' position increases the affinity of angelicin toward DNA for the molecular complex formation and enhances the DNA-photobinding, even if to a different extent. The increase is more pronounced for occupancy of 5' or 4' position; much less pronounced is the enhancement in the case of 3 or 4 positions. The introduction of two methyl groups in 3,4 or in 4',5' positions leads to an increased capacity to form the intercalated complex with DNA; the photoreactivity is also enhanced, but to a larger extent for 4',5'-dimethylangelicin. No steric hindrance, therefore, seems to be exerted by the introduction of one or two methyl groups at the level of the photoreactive sites of angelicin. The introduction of a third methyl group in 4',5'-dimethyl or in 3,4-dimethylangelicin exhibits a strong enhancement of the DNA photobinding; in particular 4,4',5'-trimethylangelicin appears the most photoreactive towards DNA. Angelicins carrying methyl groups in 3,4 positions exhibit lower antiproliferative activity than derivatives carrying methyl groups in 4',5' positions. No correlation was observed between antiproliferative activity and DNA-photobinding; may be that the presence of methyl groups in 3,4 or in 4',5' positions affects the type of cycloadducts formed. The different ratio of adducts may affect the antiproliferative effect.(ABSTRACT TRUNCATED AT 250 WORDS)

Inactivation of T5 phage by cis-vaccenic acid, an antivirus substance from Rhodopseudomonas capsulata, and by unsaturated fatty acids and related alcohols.

The antiviral extract from Rhodopseudomonas capsulata was purified and the predominant active component was defined as cis-vaccenic acid (Cl-8:1 delta 11) by gas-liquid chromatography and gas chromatography-mass spectrometry analyses. Antiviral activities of unsaturated fatty acids and related alcohols against T5 phage were also tested. Among them, linoelaidic acid, oleic acid, and petroselenyl alcohol inactivated 98%, 53%, 67% of T5 phage at the concentration of 50 micrograms/ml, respectively.

[Effect of ozone on bacteriophages in the phage--host-cell system]. / Deistvie ozona na bakteriofagi v sisteme fag--kletka-khozian.

The antiviral action of ozone was studied using Escherichia coli K-12 AB1157 virulent phage T4 and Pseudomonas aeruginosa PAO1 temperate phage SM as models depending on the phage state during the action: a free phage, a phage in the presence of sensitive host cells, or a vegetative phage. Bacteriophages T4 and SM were found to be much more sensitive to ozone as compared to the bacterial strains AB1157 and PAO1. The latter protected phage particles against the activation by ozone at a concentration which effectively inactivated these phages in the absence of the bacteria. Ozone also exerted an inhibiting effect on vegetative phage SM, and the degree of inhibition decreased with the termination of intracellular growth stages.

Inactivation of bacteriophage T7 DNA-dependent RNA polymerase by 5'-p-fluorosulfonylbenzoyladenosine. Identification of the modification site and the effect of the modification on enzyme action.

Bacteriophage T7 RNA polymerase was covalently modified by 5'-[4-fluorosulfonyl)benzoyl]adenosine (4-FSO2BzAdo). The modified enzyme lacks the ability to catalyze RNA synthesis from the phi 10 promoter of bacteriophage T7; both promoter and GTP binding being markedly decreased. The mild hydrolysis of the ester bond of 4-FSO2BzAdo within the covalent enzyme-inhibitor complex restores the RNA synthesis at a lower rate. Sequence studies show that Lys172 is the target of modification by 4-FSO2BzAdo. This residue, which is situated in the polypeptide region connecting two domains of RNA polymerase, was shown to be the primary site of the limited proteolysis occurring in vivo [Ikeda, R. A. & Richardson, C. C. (1987) J. Biol. Chem. 262, 3790-3799]. We propose that Lys172 is located outside the active site. Once this residue has reacted with 4-FSO2BzAdo, the nucleoside moiety of the analog is fixed in the NTP-binding site of the active centre and prevents binding of the substrates. Here, Lys172 per se is not important for the activity but serves as an 'anchor' for binding of the inhibitor.

Dark and photoreactivity of 4'-aminomethyl-4,5',8-trimethylpsoralen with T7 phage.

The dark and photoreactions of 4'-aminomethyl-4,5',8-trimethylpsoralen (AMT) with T7 phage were investigated from biological and structural points of view. The dark reaction leads to the structural destabilization of the double helix of the DNA as is shown by optical melting measurements. The genotoxicity of AMT in the dark is comparable with that of known genotoxic drugs as determined by phage inactivation. The photoreaction with UVA light leads to the formation of mono- and di-adducts depending on the wavelength and dose used. Mono- and di-adducts influence DNA stability differently; biologically both types of adducts are genotoxic as measured by action spectra.

Genotoxicity testing: phage T7 inactivation test of various furan and arenofuran derivatives.

The genotoxic activities of 28 furan and arenofuran derivatives were tested by the phage T7-inactivation test. The genotoxic activity of the compounds was characterized quantitatively. All the compounds studied have pronounced genotoxic activities in our system. Empirical rules relating structure to genotoxic activity were found. Data obtained with our system were compared with the results of other biological systems (Salmonella assay, SOS Chromotest, CHO/HGPRT, gene amplification) in the case of some compounds included as references.

Action spectra for photoinduced inactivation of bacteriophage T7 sensitized by 8-methoxypsoralen and angelicin.

The action spectrum (240-300 nm) for photoinactivation of unsensitized phage T7 and the action spectra (310-380 nm) for photoinactivation of phage T7 sensitized with 8-methoxypsoralen (8-MOP) and angelicin were measured by an automated method. For unsensitized phage T7 the action spectrum is in good agreement with the absorption spectrum. For sensitization with angelicin the action spectrum is similar to the absorption spectrum, but for sensitization with 8-MOP the spectra are different. The agreement between the T7 absorption and action spectra in the far-UV region is due to photodamage of DNA, leading to phage inactivation. The similarity in the action and absorption spectra in the near-UV region for sensitization with angelicin seems to be in accordance with the monofunctional photobinding of angelicin to DNA. The action spectrum for sensitization with 8-MOP has a maximum at about 320 nm and this suggests that, in addition to the monoadducts, the biadducts play a role in the inactivation of phage T7. Taking the number of bound furocoumarin molecules into consideration, the quantum efficiencies were estimated. Furocoumarin increases the quantum efficiency in the near-UV region and the values are similar to those obtained in far-UV light without psoralens.

Sequence-dependent termination of bacteriophage T7 transcription in vitro by DNA-binding drugs.

An in vitro T7 bacteriophage transcription system has been utilized in which the RNA was initiated to a specific length (defined by the absence of the appropriate nucleoside triphosphate). When the DNA-RNA-RNA polymerase ternary complex was exposed to nonsaturating levels of DNA-binding ligands (i.e., a small fractional occupancy at each site), and the RNA transcript then allowed to elongate in the presence of all four nucleoside triphosphates, there was a synchronous increase of RNA lengths up to sites occupied by ligands. A unique characteristic is that bacteriophage transcription was completely terminated at every ligand site, in contrast to bacterial RNA polymerases where "read-through" past drug sites occurs and results merely in a delay of transcription at each site due primarily to dissociation of drug from the DNA. Similar termination of transcription at each drug site was observed with T3 and SP6 RNA polymerases. The termination at drug sites in the bacteriophage system results in RNA of specific lengths which define the location of ligand sites, and the RNA concentration provides a measure of relative ligand occupancy at that site. Termination of transcription was observed with four drugs with relatively long DNA residence times (half-life greater than or equal to 300 s at 20 degrees C for nogalamycin, actinomycin, mithramycin, and echinomycin) but to a lesser extent with drugs of intermediate residence times [a bis(thiadaunomycin) and an acridine-tripyrrole, with half-lives of 230 and 7 s, respectively, at 20 degrees C]

Ribonucleotide reductase: a determinant of 5-bromodeoxyuridine mutagenesis in phage T4.

Mutagenesis by 5-bromodeoxyuridine (BrdUrd) can result from base-pairing errors either during replication of a BrdUrd-containing template or at the nucleotide incorporation step. Replication errors give rise predominantly to AT-to-GC transitions, while incorporation errors, in which 5-bromo-dUTP competes with dCTP at a template guanine site, should give rise to GC-to-AT transitions. The latter pathway should be sensitive to deoxyribonucleoside triphosphate (dNTP) pool fluctuations. Since dNTP pools are regulated through allosteric control of ribonucleotide reductase, the control of this enzyme should be a determinant of BrdUrd mutagenesis--if mutagenesis results largely from incorporation errors. Since T4 phage-encoded ribonucleotide reductase is insensitive to feedback inhibition, we established conditions under which phage DNA replication is dependent upon ribonucleotide reductase of the host, Escherichia coli. We examined BrdUrd mutagenesis of rII mutants known to revert to wild type either by AT-to-GC or GC-to-AT transition pathways. While both reversion pathways were stimulated under all conditions analyzed, the AT-to-GC pathway was stimulated more when the E. coli reductase was functioning, while the GC-to-AT pathway was more specifically enhanced when the T4 reductase was active. These results confirm that ribonucleotide reductase is a determinant of BrdUrd mutagenesis, but our observations, plus experiments showing that BrdUrd has relatively small effects upon dNTP pool sizes, indicate that the relationship between deoxyribonucleotide metabolism and BrdUrd mutagenesis is more complex than anticipated.