N-Nitroso-β-lactams as β-lactamase inhibitor

N-Nitroso-β-phenyl-β-lactam has been found to be a specific inhibitor of β-lactamase. N-Nitroso--phenyl-β-lactam, by contrast, was virtually ineffective although a transient inhibition of short duration was observed. The acyl enzyme derived from the β-phenyl isomer is presumably involved in a cross-linking reaction, whereas that from the -phenyl isomer was quenched by spontaneous hydrolysis without formation of a covalent bond. No inhibitory effect of the β-phenyl isomer on chymotrypsin has been observed.     

Biotransformations of α,β-Epoxyalcohols Catalyzed by Epoxide Hydrolases

Microsomal and cytosolic fractions of mammalian livers were screened for their capacity to resolve racemic mixtures of trans -2,3-epoxy-l-alkanols. The epoxide hydrolase activities showed some specificity for the 2S, 3S enantiomers which were attacked at the proximate carbon atom. The best resolutions were observed with guinea pig liver microsomal enzymes.     

Enzymic Preparation of Benzyl β-D-Glucopyranoside

Benzyl β-D-glucopyranoside was prepared by an enzyme-catalysed direct reaction between D-glucose, or better cellobiose, and benzyl alcohol in the presence of a minimum amount of water. The enzyme β-glucosidase was used in the immobilized form (adsorbed onto macroporous polyethylene terephthalate or covalently bound on polyglycidyl methacrylate), enabling multiple application.     

Temporal Changes of Acid Phosphatase, Arylsulphatase, β-Galactosidase and β-N-ACETYL-d-Glucosaminidase Activities in Subcellular Fractions of Rat Liver

In this paper circadian changes in the liver enzyme activities of rat housed under highly standardized conditions with 12:12 hour light-dark cycle are shown. Activities of acid phosphatase, arylsulphatase, β-galactosidase and β-N-acetyl-d-glucosaminidase in microsomal and lysosomal fractions and crude homogenate were estimated every 4 hr during one 24-hr period. The enzyme activities were related to 1 mg of protein, 1 mg of DNA and 1 g fresh tissue. Daily changes of enzyme activities were found. In case of activity calculated per 1 mg DNA two maxima at 0500 and at 2100 hr were observed, while activity calculated per 1 mg protein showed one maximum at 0500 hr. Activity calculated per 1 g fresh tissue showed the maximum at 0500 hr for each enzyme only in microsomal fraction. As far as acrophase table is concerned for all enzymes and fractions the acrophase occurred during the night. The obtained results are discussed in relation to lysosomal enzymes synthesis process as well as different reference values.     

β-Lactam drug allergens: Fine structural recognition patterns of cephalosporin-reactive IgE antibodies

Lack of experimental findings on the spectrum of cephalosporin allergenic determinants has hindered diagnosis of adverse reactions to these drugs and retarded understanding of allergenic cross-reactions between cephalosporins and between cephalosporins and penicillins. Subjects allergic to the widely used cephalosporin antibiotic cefaclor have serum immuno globulin (Ig) E antibodies that react with the drug. Quantitative hapten inhibition studies employing sera from subjects allergic to cefaclor revealed fine structual recognition differences between the combining site specificities of cefaclor-reactive IgE antibodies in the sera of different subjects. Unlike penicillins, where discrete side chain or thiazolidine ring determinants alone may be recognized, IgE binding determinants on cefaclor encompassed the entire molecule. Fine structural recognition specificity differences at positions R₁ (side-chain) and R₂ (substituent attached to dihydrothiazine ring) were detected between IgE antibodies in different sera. Some antibodies showed clear preferential recognition of the aminobenzyl group at position R₁ and Cl at R₂ while with others, a greater degree of recognition tolerance was seen at R₁ where, for example, the aminohydroxybenzyl or aminodihydrobenzyl groups were recognized, and at R₂ where a methyl or even an ester group was tolerated. As with the penicillins, cephalosporins as allergens cannot simply be considered as a group of compounds with a common allergenic determinant structure. IgE antibodies that bind to cefaclor show great heterogeneity indicated by clear, fine structural differences in recognition of the R₁ and R₂ groups on the drug.     

Proteolytic modification of membrane-associated phospholipase C-β by μ-calpain enhances its activation by G-protein βγ subunits in human platelets

Membrane-associated phosphoinositide-phospholipase C (PI-PLC)-β (150 kDa) and its truncated forms (100 kDa and 45 kDa) were purified from human platelets. The 100 kDa PI-PLC-β was found to be activated to a greater extent by brain G-protein βγ subunits compared to the intact 150 kDa enzyme. Furthermore, treatment with μ-calpain of the intact PI-PLC-β (150 kDa) caused a marked augmentation of its activation by βγ subunits. This enhanced PLC activation by βγ subunits was due to truncation by μ-calpain, producing a 100 kDa PI-PLC, but not by another protease,thrombin.     

Biotransformation of Digitoxin in Cell Cultures of Capsicum frutescens in the Presence of β-cyclodextrin

Cell suspension cultures of Capsicum frutescens accumulated digoxin, purpureaglycoside A and other unknown derivatives when digitoxin, a cardiac glycoside, was used as a precursor. The feeding of digitoxin complexed with β-cyclodextrin increased the accumulation of digoxin, purpureaglycoside A and other unknown derivatives. Control cultures (without digitoxin) did not produce any of these metabolites. The growth of cells was affected by both digitoxin as well as digitoxin- β-cyclodextrin. The accumulation of purpureaglycoside A and digoxin reached a maximum of 1241 and 374 μg 100 ml -1 culture on the 6th and 2nd day, respectively, which was 3.9 and 4.5 fold higher than cultures treated with digitoxin alone (sampled on the 13th day). The other unknown derivatives formed in digitoxin- β-cyclodextrin fed cultures were 15 times higher than digitoxin alone fed C. frutescens cultures. The addition of glucose to digitoxin- β-cyclodextrin treated cultures increased the accumulation of purpureaglycoside A which reached a maximum of 3589 μg 100 ml -1 culture after 12 h incubation, which was a 2.9 fold increase over cultures treated with digitoxin- β-cyclodextrin alone.     

Fungus β-glycosidases: immobilization and use in alkyl-β-glycoside synthesis

Production of β-glycosidases: β-xylosidase and β-glucosidase by the fungus Sclerotinia sclerotiorum was optimized in the presence of different carbon sources. Immobilization supports with different physico-chemical characteristics were evaluated for use in continuous reactors. Immobilization and activity yields were calculated. Among the adsorption on Duolite, Amberlite, Celite and DEAE-sepharose, and entrapment in polyacrylamide gel or reticulation using glutaraldehyde, highest yields were obtained when β-xylosidase was adsorbed on Duolite A 7 and when β-glucosidase was adsorbed on DEAE-sepharose.

Enzyme preparations from S. sclerotiorum cultures were used in a biphasic (alcohol/aqueous) medium for the synthesis of alkyl-glycosides by trans-glycosylation of sugars and long-chain alcohols. The synthesis was studied under different conditions with primary and secondary alcohols as substrates, in the presence of free or immobilized enzyme. Xylan and cellobiose were used for the synthesis of alkyl-xylosides and alkyl-glucosides, respectively. The majority of the immobilized preparations were unable to catalyze the synthesis of alkyl-glycosides.

Highest yields were obtained when using xylan and C₄–C₆-alcohols. The reaction produced alkyl-β-xyloside and alkyl-β-xylobioside, as confirmed by MS/MS. Up to 22 mM iso-amyl-xyloside and 14 mM iso-amyl-xylobioside were produced from iso-amyl alcohol and xylan.     

Protection of Heme Proteins by Vitamin E, Selenium, and β-Carotene Against Oxidative Damage in Rat Heart, Kidney, Lung and Spleen

Effects of the combination of vitamin E, selenium, and β-carotene on oxidative damage to rat heart, kidney, lung, and spleen were studied by measurement of the production of oxidized heme proteins (OHP) during spontaneous and prooxidant-induced oxidation. Male SD rats were fed with a vitamin E and selenium deficient diet or a diet supplemented with vitamin E, selenium, and β-carotene, Homogenates of heart, kidney, lung, and spleen were incubated at 37°C with and without the presence of bromotrichloromethane (CBrCl₃). The diet supplemented with antioxidants showed a strong protective effect against oxidative damage to heme proteins during the early stages of both spontaneous and CBrCl₃-induced oxidation in contrast to the antioxidant deficient diet. Synergism of multiple antioxygenic nutrients against oxidative damage to various animal tissues is discussed.     

Cross-linked aggregates of penicillin acylase: robust catalysts for the synthesis of β-lactam antibiotics

A novel method for the immobilization of penicillin G acylase (penicillin amidohydrolase, E.C. 3.5.1.11) is reported. It involves the physical aggregation of the enzyme, followed by chemical cross-linking to form insoluble cross-linked enzyme aggregates (CLEAs). Compared with conventionally immobilized penicillin G acylases, these CLEAs possess a high specific activity as well as a high productivity and synthesis/hydrolysis (S/H) ratio in the synthesis of semi-synthetic antibiotics in aqueous media. Moreover, they are active in a broad range of polar and apolar organic solvents.     

SUMOylation of Nuclear γ-Actin by SUMO2 supports DNA Damage Repair against Myocardial Ischemia-Reperfusion Injury

Myocardial infarction triggers oxidative DNA damage, apoptosis and adverse cardiac remodeling in the heart. Small ubiquitin-like modifier (SUMO) proteins mediate post-translational SUMOylation of the cardiac proteins in response to oxidative stress signals. Upregulation of isoform SUMO2 could attenuate myocardial injury via increasing protein SUMOylation. The present study aimed to discover the identity and cardioprotective activities of SUMOylated proteins. A plasmid vector for expressing N-Strep-SUMO2 protein was generated and introduced into H9c2 rat cardiomyocytes. The SUMOylated proteins were isolated with Strep-Tactin^® agarose beads and identified by MALDI-TOF-MS technology. As a result, γ-actin was identified from a predominant protein band of ~42 kDa and verified by Western blotting. The roles of SUMO2 and γ-actin SUMOylation were subsequently determined in a mouse model of myocardial infarction induced by ligating left anterior descending coronary artery and H9c2 cells challenged by hypoxia-reoxygenation. In vitro lentiviral-mediated SUMO2 expression in H9c2 cells were used to explore the role of SUMOylation of γ-actin. SUMOylation of γ-actin by SUMO2 was proven to be a new cardioprotective mechanism from the following aspects: 1) SUMO2 overexpression reduced the number of TUNEL positive cells, the levels of 8-OHdG and p-γ-H2ax while promoted the nuclear deposition of γ-actin in mouse model and H9c2 cell model of myocardial infarction; 2) SUMO-2 silencing decreased the levels of nuclear γ-actin and SUMOylation while exacerbated DNA damage; 3) Mutated γ-actin (K⁶⁸R/K²⁸⁴R) void of SUMOylation sites failed to protect cardiomyocytes against hypoxia-reoxygenation challenge. The present study suggested that SUMO2 upregulation promoted DNA damage repair and attenuated myocardial injury via increasing SUMOylation of γ-actin in the cell nucleus.     

The Production of γ-Decalactone by Fermentation of Castor Oil

A microbial process for the production of optically-active γ-decalactone from the ricinoleic acid present as triglycerides in castor oil has been developed, γ-decalactone (γDL) is a component of some fruit flavours, being an important organoleptic component of peach flavours. Screening showed two red yeast microorganisms, Rhodotorula glutinis and Sporobolomyces odortts to be especially suitable for this biotransformation. The process involves lipase-mediated hydrolysis of the castor oil to give free ricinoleic acid, uptake of the acid by the cells and aerobic fermentation to achieve abbreviated β-oxidation of the ricinoleic acid (12-hydroxyoleic acid) into 4-hydroxydecanoic acid (4HDA), lactonisation of the acid into γ-DL, followed by solvent extraction and distillation. γ-DL broth concentrations of 0.5-1.2g · 1^-t were obtained after 3-5 days from fermentation media containing 10 g · 1^-1 castor oil, representing an 8.3-20.0% theoretical yield. Intermediates detected were consistent with the operation of the β-oxidation pathway. Appreciable amounts of novel metabolites identified as cis and trans isomers of a tetrahydrofuran (C₁₀) were also produced. Their formation from 4HDA appeared to be non-enzymic and was favoured by anaerobic conditions. Yields of γ-DL were inversely proportional to the concentration of castor oil present in the medium, indicating that substrate inhibition takes place. The highest yields of γ-DL were obtained when castor oil was present from the beginning of the fermentation, rather than when added once the fermentation had become established, demonstrating that the β-oxidation pathway and/or transport system require continual induction. Significant amounts of γ-DL were not produced from other fatty acids, including ricinelaidic acid, the trans isomer of ricinoleic acid. γ-DL formation was dramatically inhibited by antibiotic inhibitors of oxidative phosphorylation, indicating the importance of intact β-oxidation pathways, whereas inhibitors of protein synthesis and cell-wall synthesis had much less marked effects. Selective extraction of 4HDA from the fermentation broths, and of γDL from broth lactonised by heating at low pH, could be achieved by adsorption to Amberlite XAD-1 and XAD-7 resins respectively. Some product could be recovered from the exit gases of the fermenter by passing through propylene glycol traps. This pathway is unusual in that it is a rare example of the truncated β-oxidation of a fatty acid by microorganisms. This effect probably occurs because of partial inhibition of one or more enzymes of the β-oxidation pathway by the C₁₀ hydroxylated fatty acid intermediate(s) allowing intracellular accumulation of the 4HDA, followed by leakage out of the cell; although further metabolism of this C₁₀ intermediate does take place slowly.     

Kinetics of Parallel Electron Transfer from β-Carotene to Phenoxyl Radical and Adduct Formation Between Phenoxyl Radical and β-Carotene

Phenoxyl radicals generated by laser flash photolysis were found to react with β-carotene with concomitant β-carotene bleaching in two parallel reactions with similar rates: (i) formation of a β-carotene adduct with a (pseudo) first order rate constant of 1-1.5 ± 10⁴ s^-1 with absorption maximum around 800 nm, and (ii) formation of a β-carotene radical cation with a (pseudo) first order rate constant of 2-3 ± 10⁴ s^-1 with absorption maximum around 920 nm. Both β-carotene radicals decay on a similar time scale and have virtually disappeared after 100 ms, the β-carotene adduct by a second order process. Oxygen had no effect on β-carotene bleaching or radical formation and decay. The reduction of phenoxyl radicals by β-carotene may prove important for an understanding of how β-carotene acts as an antioxidant.     

Kinetics of Photobleaching of β-Carotene in Chloroform and Formation of Transient Carotenoid Species Absorbing in the Near Infrared

Upon laser flash photolysis of β-carotene in chloroform instantaneous bleaching of β-carotene and concomitant formation of near infrared absorbing species are observed. One species, absorbing with maximum at 920 nm, is formed during the laser pulse (10 ns) and is practically gone in one millisecond, the decay showing a bi-exponential behaviour. The second species, absorbing with maximum at 1000 nm, is formed from the species absorbing at 920 nm by first order kinetics with a rate constant of 4.9·10⁴ s^-1 at 20°C. This second species decays by second order kinetics and is gone within a few milliseconds. An additional slow bleaching of β-carotene and formation of the species absorbing at 920 nm is observed. This slow bleaching/formation of transient absorption is probably due to processes involving free radicals generated during the instantaneous bleaching. The species absorbing at 920 nm is suggested to be either (i) a free radical adduct formed from β-carotene and chloroform or (ii) β-carotene after abstraction of a hydrogen atom. The species absorbing at 1000 nm is most likely the radical cation. Formation and decay of the near infrared absorbing species and bleaching of β-carotene are independent of whether oxygen is present or absent in the solutions.     

Replication of single-stranded porcine circovirus DNA by DNA polymerases α and δ

Porcine circovirus is the only mammalian DNA virus so far known to contain a single-stranded circular genome (Tischer et al. (1982) Nature 295, 64–66). Replication of its small viral DNA (1.76 kb) appears to be dependent on cellular enzymes expressed during S-phase of the cell cycle (Tischer et al. (1987) Arch. Virol. 96, 39–57). In this paper we have exploited the porcine circovirus genome to probe for in vitro initiation and elongation of DNA replication by different preparations of calf thymus DNA polymerase α and δ as well as by a partially purified preparation from pig thymus. The results indicated that three different purification fractions of calf thymus DNA polymerase α and one from pig thymus initiate DNA synthesis at several sites on the porcine circovirus DNA. It appears that the sites at which DNA primase synthesizes primers are not entirely random. Subsequent DNA elongation by a highly purified DNA polymerase α holoenzyme which had been isolated by the criterion of replicating single-stranded M13 DNA (Ottiger et al. (1987) Nucleic Acids Res. 15, 4789–4807) is very efficient. Complete conversion to the double-stranded form is obtained in less than 1 min. When the DNA synthesis by DNA polymerase α is blocked with the DNA polymerase α specific monoclonal antibody SJK 132-20 after initiation by DNA primase, DNA polymerase δ can efficiently replicate from the primers. This in vitro DNA replication system may be used in analogy to the bacteriophage systems in E. coli to study initiation and elongation of DNA replication.     

Effect of a Single Bout of Exercise and β-Carotene Supplementation on the Urinary Excretion of 8-Hydroxy-deoxyguanosine in Humans

We investigated the effects of acute exhaustive exercise and β-carotene supplementation on urinary 8-hydroxy-deoxyguanosine (8-OHdG) excretion in healthy nonsmoking men. Fourteen untrained male (19-22 years old) volunteers participated in a double blind design. The subjects were randomly assigned to either the β-carotene or placebo supplement group. Eight subjects were given 30 mg of β-carotene per day for 1 month, while six subjects were given a placebo for the same period. All subjects performed incremental exercise to exhaustion on a bicycle ergometer both before and after the 1-month β-carotene supplementation period. The blood lactate and pyruvate concentrations significantly increased immediately after exercise in both groups. The baseline plasma p-carotene concentration was significantly 17-fold higher after β-carotene supplementation. The plasma β-carotene decreased immediately after both trials of exercise, suggesting that β-carotene may contribute to the protection of the increasing oxidative stress during exercise. Both plasma hypoxanthine and xanthine increased immediately after exercise before and after supplementation. This thus suggests that both trials of exercise might enhance the oxidative stress. The 24-h urinary excretion of 8-OHdG was unchanged for 3 days after exercise before and after supplementation in both groups. However, the baseline urinary excretion of 8-OHdG before exercise tended to be lower after β-carotene supplementation. These results thus suggest that a single bout of incremental exercise does not induce the oxidative DNA damage, while β-carotene supplementation may attenuate it.     

Transglycosylation Catalyzed by Almond β-glucosidase and Cloned Pichia etchellsii β-glucosidase II using Glycosylasparagine Mimetics as Novel Acceptors

The stability of almond β-glucosidase in five different organic media was evaluated. After 1 hour of incubation at 30°C, the enzyme retained 95, 91, 81, 74 and 56% relative activity in aqueous solutions [30% (v/v)] of dioxane, DMSO, DMF, acetone and acetonitrile, respectively. Transglucosylation involving p-nitrophenyl β-D-glucopyranoside as donor and β-1-N-acetamido-D-glucopyranose, which is a glycosylasparagine mimic, as acceptor was explored under different reaction conditions using almond βglucosidase and cloned Pichia etchellsii β-glucosidase II. The yield of disaccharides obtained in both reactions turned out to be 3%. Both enzymes catalyzed the formation of (1→3)- as well as (1→6)- regioisomeric disaccharides, the former being the major product in cloned β-glucosidase II reaction while the latter predominated in the almond enzyme catalyzed reaction. Use of β-1-N-acetamido-D-mannopyranose and β-1-N-acetamido-2-acetamido-2-deoxy-D-glucopyranose as acceptors in almond β-glucosidase catalyzed reactions, however, did not afford any disaccharide products revealing the high acceptor specificity of this enzyme.     

Absolute β-catenin concentrations in Wnt pathway-stimulated and non-stimulated cells

The intracellular level of the proto-oncoprotein β-catenin is a parameter for the activity of the Wnt pathway, which has been linked to carcinogenesis. The paper introduces a novel sandwich-based ELISA for the determination of the β-catenin concentration in lysates from cells or tissues. The advantages of the method were proven by determining β-catenin levels in cell lines and in cells after activation of the Wnt pathway. Analysis revealed high β-catenin concentrations in the cell lines HeLa, KB, HT1080, MCF-7, U-87 and U-373, which had not been described before. β-Catenin concentrations were compared in HEK293 and C57MG cells after activation of the Wnt pathway. The β-catenin concentrations increased by different factors depending on whether the Wnt pathway was activated by incubation with LiCl or with Wnt-3a-conditioned medium. This finding indicated that the β-catenin level depends on the way and level of Wnt pathway activation. The quantitative analysis of β-catenin in colorectal tumours revealed high β-catenin levels in tumours with truncating mutations in the APC gene.     

Enzymatic Synthesis of Thioglucosides Using Almond β-glucosidase

A selection of different glycosidases was screened for the glycosylation of 1-propanethiol. The β-glucosidases from almond, Aspergillus niger and Caldocellum saccharolyticum were capable of 1-propanethioglucoside (1-PTG) formation. The almond β-glucosidase showed the highest activity in this reversed hydrolysis type of reaction using glucose as glucosyl donor. Besides 1-propanethiol, also thioglucosides of 2-propanethiol and furfuryl mercaptan were formed by the almond β-glucosidase. The substrate specificity of the almond β-glucosidase with respect to thioglucosylation is restricted to primary and secondary aliphatic thiols. Once the thioglucosides are formed, they are not hydrolyzed at a significant rate by almond β-glucosidase. As a consequence the synthesis of 1-PTG could be observed at very low aglycone concentrations (0.5% v/v based on the reaction solution) and high yields (68% based on 1-PT and 41% based on glucose) were obtained. An excess of aglycone, otherwise frequently applied in reversed hydrolysis glycosylation, is therefore not necessary in the glucosylation of 1-PT.