Scavenger effect of flavonols on HOCl-induced luminol chemiluminescence.

Hypochlorous acid (HOCl), the main product of the myeloperoxidase system, is a strong oxidant and a potent chlorinating agent, which can damage host tissues. In the present work, the scavenger effect of three aglycone flavonols (myricetin, quercetin and kaempferol) and of the natural glycoside flavonol, rutin, was studied towards HOCl using luminol-dependent chemiluminescence (CL). At 1 micro mol/L fi nal concentration, rutin was the most powerful scavenger of HOCl with an inhibitory luminol oxidation of 91.4% +/- 3.2%. Quercetin, kaempferol and myricetin inhibited the luminol-dependent CL at the same concentration only by 75.9% +/- 3.4%, 57.7% +/- 5.3% and 43.3% +/- 3.5%, respectively. With increasing concentration of these flavonols, a dose-dependent inhibition of luminol CL was observed. In order to prove to what extent flavonols scavenge HOCl, their concentrations that gave 50% inhibition of luminescence (IC50) were compared to IC50 values of the sulphur-containing compounds N-acetyl cysteine (NAC) and taurine. The scavenging activities of compounds tested decrease in the order: rutin > NAC > quercetin > kaempferol > taurine. The present study revealed that rutin was the most effective scavenger agent.     

Evaluation of phenolics and sugars as inducers of quercetinase activity in Penicillium olsonii

Quercetinase is produced by various filamentous fungi when grown on rutin as sole carbon and energy source. We investigated on the effect of 10 phenolics and two sugars, structurally related to substrates and products of the rutin catabolic pathway, on the induction of a quercetinase activity in Penicillium olsonii. Neither the sugars (glucose and rhamnose, two constituents of rutin), nor phenolics such as protocatechuic acid, salicylic acid, 4-hydroxy-benzoic acid and phloroglucinol were inducers. Rutin (maximum activity 150 nmol/min/mL after 5 days), quercetin (70 nmol/min/mL, 3 days), phloroglucinol carboxylic acid (60 nmol/min/mL, 3 days), 2-protocatechuoylphloroglucinolcarboxylic acid (50 nmol/min/mL, 5 days), 2,6-dihydroxy-carboxylic acid (90 nmol/min/mL, 7 days) and 2,4-dihydroxy-carboxylic acid (30 nmol/min/mL, 7 days) were demonstrated to be quercetinase inducers. We propose that rutin, quercetin and 2-protocatechuoyl-phloroglucinol carboxylic acid, the product of the reaction catalysed by quercetinase, act as inducers after their catabolic transformation in phloroglucinol carboxylic acid.     

Indole-based assay to assess the effect of ethanol on <Emphasis Type="Italic">Pseudomonas putida</Emphasis> F1 dioxygenase activity

Toluene dioxygenase (TDO) is ubiquitous in nature and has a broad substrate range, including benzene, toluene, ethylbenzene and xylenes (BTEX). Pseudomonas putida F1 (PpF1) induced on toluene is known to produce indigo from indole through the activity of TDO. In this work, a spectrophotometric assay previously developed to measure indole to indigo production rates was modified to characterize the effects of various ethanol concentrations on toluene aerobic biodegradation activity and assess catabolite repression of TDO. Indigo production rate by cells induced on toluene alone was 0.0012 ± 0.0006 OD₆₁₀ min⁻¹. The presence of ethanol did not fully repress TDO activity when toluene was also available as a carbon source. However, indigo production rates by PpF1 grown on ethanol:toluene mixtures (3:1 w/w) decreased by approximately 50%. Overall, the proposed spectrophotometric assay is a simple approach to quantify TDO activity, and demonstrates how the presence of ethanol in groundwater contaminated with reformulated gasoline is likely to interfere with naturally occurring microorganisms from fully expressing their aerobic catabolic potential towards hydrocarbons bioremediation.     

Flavonols from Pterogyne nitens and their evaluation as myeloperoxidase inhibitors

A myeloperoxidase inhibitory kaempferol derivative, namely pterogynoside (1), was isolated from fruits of Pterogyne nitens, along with six known flavonols, kaempferol, afzelin, kaempferitrin, quercetin, isoquercetrin and rutin. The structures of all compounds were elucidated primarily from 1D and 2D NMR spectroscopic analyses, as well as by high resolution mass spectrometry. All flavonols were screened to identify secondary metabolites as potential myeloperoxidase (MPO) inhibitors, and at concentrations of 0.50–50 nM, quercetin (5), isoquercitrin (6) and rutin (7) exhibited strong inhibitory effects with IC₅₀ values of 1.22 ± 0.01, 3.75 ± 0.02 and 3.60 ± 0.02, respectively. The MPO activity detected for the new derivative 1 was markedly decreased (IC₅₀ 10.3 ± 0.03) when compared with known flavonols 5–7, and interestingly increased when tested against ABTS scavenging activity.     

l-Glutamate and l-lysine: traditional products with impetuous developments

 Amino acids have been produced with the aid of microorganisms for nearly 40 years now. The economic importance of these cellular building blocks is enormous. Demand for them is rising continuously and currently more than 10⁶ tonnes/year are required. Continual efforts to increase production performance are directed towards the microorganisms themselves, as well as towards technical improvements of the respective processes. A special position within the amino-acid-producing microorganisms is traditionally occupied by Corynebacterium glutamicum. Molecular research in conjunction with NMR studies of flux has revealed fascinating new properties of this particular organism, including the existence of a new type of exporter and reverse fluxes within the anaplerosis. The knowledge gained will enable the further improvement of production strains and furthermore extend fundamental insights into metabolite flux management within bacteria in general. Received: 8 December 1998 / Received revision: 1 March 1999 / Accepted: 5 March 1999     

Modifying role of dietary factors on the mutagenicity of aflatoxin B1: in vitro effect of plant flavonoids

Eighteen flavonoids have been tested for their ability to inhibit the mutagenicity of aflatoxin B1 (AFB1) towards strains TA100 and TA98 of Salmonella typhimurium provided with a rat liver activation system. These flavonoids belong to 5 different groups: flavone, isoflavone, flavanone, flavanol and flavonol, and many individual members are natural products present in edible portions of a variety of food plants. Several flavonoids exhibited significant inhibitory ability in both strains. Flavonols in general are more active in this regard, while flavanones show a strain-specific response. The flavanol group of compounds did not display any activity. Among the most effective flavonoids are kaempferol, morin, fisetin, biochanin A and the glycoside rutin, all of which exhibit a dose-dependent inhibition pattern. Kaempferol and rutin, in particular, show exceptional activity inasmuch as, on a molar basis, only a 10-fold excess dose of each can inhibit the mutagenic activity of AFB1 in strain TA98 by 50%. The action of flavonoids is possibly mediated through interaction with microsomal activating enzymes. Previous evidence from this laboratory about their inhibitory action on DNA-adduct formation and metabolic activation together with the present results suggests that certain flavonoids, notably polyhydroxylated flavonols, may have potential anticarcinogenic activity against AFB1.     

Design,synthesis and biological evaluation of anthranilamide derivatives as potent SMO inhibitors

A series of anthranilamide derivatives were designed and synthesized as novel smoothened (SMO) inhibitors based on the SMO inhibitor taladegib (LY2940680), which can also inhibit the SMO-D473H mutant, via a ring-opening strategy. The phthalazine core in LY2940680 was replaced with anthranilamide, which retained the inhibitory activity towards the hedgehog (Hh) signaling pathway as evidenced by a dual luciferase reporter gene assay. Compound 12a displayed the best inhibitory activity against the Hh signaling pathway with IC₅₀ value of 34.09 nM, and exhibited better proliferation inhibitory activity towards the Daoy cell line (IC₅₀ = 0.48 μM) than LY2940680 (IC₅₀ = 0.79 μM).     

Inhibition of growth and ochratoxin A biosynthesis in <Emphasis Type="Italic">Aspergillus carbonarius</Emphasis> by flavonoid and nonflavonoid compounds

The effect of naturally occurring phenolic compounds on Aspergillus carbonarius growth and ochratoxin A (OTA) production was studied. Caffeic acid and the flavonoids, rutin and quercetin, were added to Czapek Yeast Extract agar at concentrations ranging between 50 and 500 mg/l. All phenolic compounds had a significant influence on growth rate and lag phase of A. carbonarius at 250 mg/l. The growth was completely inhibited with 500 mg/l. In comparison with the control, a significant decrease in OTA production was observed with all phenolic compounds. In general, effect on growth was less evident than effect on toxin production. An inhibitory effect on growth and OTA production, as concentration was increased was observed in all cases. The response of A. carbonarius to the flavonoids, rutin and quercetin, was similar. The inhibitory effect of these natural phenolic compounds on fungal growth and OTA production could be an alternative to the use of chemical fungicides.     

Effect of bile acids on formation of the mutagen, quercetin, from two flavonol glycoside precursors by human gut bacterial preparations

Human fecal cultures, induced with either of the flavonols, quercitrin or rutin, were grown in the presence of various concentrations of chenodeoxycholic acid, deoxycholic acid or cholic acid. Cell-free preparations (fecal preparations) from these cultures were then incubated with rutin or quercitrin. The formation of the aglycone, quercetin, was monitored by the Ames assay using tester strain TA98. The presence of chenodeoxycholic or deoxycholic acids in the quercitrin-induced culture resulted in a fecal preparation which enhanced the mutagenesis of quercitrin approximately two-fold at optimal concentrations of 0.6 mM and 0.8 mM respectively. Higher concentrations of these bile acids decreased the activity of the fecal preparations. Cholic acid gave similar results except a much higher concentration (3.0 mM) was required to achieve this effect. Analogous results with rutin-induced cultures were less clear cut: considerable variation in bile acid effect was noted among volunteers. The authors propose that bile acid in the medium may enhance the ability of rutin- and quercitrin-glycosidase elaborating organisms to successfully compete with other microbial populations. Additionally, the greater variation in results using rutin as inducer may reflect more heterogeneous populations of organisms active against this substrate. The possible role of bile acids and flavonols in bowel cancer is discussed.     

Protective effect of quercetin and rutin on photosensitized lysis of human erythrocytes in the presence of hematoporphyrin

Photosensitized hemolysis of human erythrocytes by hematoporphyrin was suppressed by flavonols such as quercetin and rutin at submillimolar concentrations. The suppression of photohemolysis was accompanied by inhibition of lipid peroxidation by the reagents. Quercetin and rutin were photooxidized in the presence of hematoporphyrin and the photooxidation was partially suppressed by 1 mM NaN3, a quencher of singlet molecular oxygen. Flavonols were also oxidized by radicals formed during degradation of lauroyl peroxide. These results indicate that flavonols can function as antioxidants in biological systems by terminating radical chain reactions and removing singlet molecular oxygen. A pharmacological function of flavonols, decrease of the increased permeability and fragility of capillary, was discussed in relation to their antioxidative functions.     

Thermodynamic equilibrium model in anaerobic digestion process

Catabolic reactions provide the chemical energy necessary for the maintenance of living microorganisms. The catabolic reactions in anaerobic digestion process may progress close to the equilibrium state (ΔG = 0) depending strongly on the microorganisms in the digester. The thermodynamic equilibrium of catabolic reactions in the anaerobic digestion process was modelled under isothermal and isobaric conditions. Three thermodynamic models were considered; the ideal, the Debye-Hückel–Praunitz, and the Pitzer–Praunitz. The models in this paper concentrate on the methanogenic equilibrium of the anaerobic digestion process. The thermodynamic equilibrium model shows that the methanogenesis step requires thermal energy and electrons, so that anaerobic digestion may achieve high substrate degradation and high conversion to methane. Some thermodynamic recommendations are suggested for the future development of the methanogenic phase of anaerobic digestion.     

A modular metabolic engineering approach for the production of 1,2-propanediol from glycerol by Saccharomyces cerevisiae

Compared to sugars, a major advantage of using glycerol as a feedstock for industrial bioprocesses is the fact that this molecule is more reduced than sugars. A compound whose biotechnological production might greatly profit from the substrate's higher reducing power is 1,2-propanediol (1,2-PDO). Here we present a novel metabolic engineering approach to produce 1,2-PDO from glycerol in S. cerevisiae. Apart from implementing the heterologous methylglyoxal (MG) pathway for 1,2-PDO formation from dihydroxyacetone phosphate (DHAP) and expressing a heterologous glycerol facilitator, the employed genetic modifications included the replacement of the native FAD-dependent glycerol catabolic pathway by the 'DHA pathway' for delivery of cytosolic NADH and the reduction of triosephosphate isomerase (TPI) activity for increased precursor (DHAP) supply. The choice of the medium had a crucial impact on both the strength of the metabolic switch towards fermentation in general (as indicated by the production of ethanol and 1,2-PDO) and on the ratio at which these two fermentation products were formed. For example, virtually no 1,2-PDO but only ethanol was formed in synthetic glycerol medium with urea as the nitrogen source. When nutrient-limited complex YG medium was used, significant amounts of 1,2-PDO were formed and it became obvious that the concerted supply of NADH and DHAP are essential for boosting 1,2-PDO production. Additionally, optimizing the flux into the MG pathway improved 1,2-PDO formation at the expense of ethanol. Cultivation of the best-performing strain in YG medium and a controlled bioreactor set-up resulted in a maximum titer of > 4 g L⁻¹ 1,2-PDO which, to the best of our knowledge, has been the highest titer of 1,2-PDO obtained in yeast so far. Surprisingly, significant 1,2-PDO production was also obtained in synthetic glycerol medium after changing the nitrogen source towards ammonium sulfate and adding a buffer.     

In vitro degradation of the flavonol quercetin and of quercetin glycosides in the porcine hindgut

Abstract

The present study investigated the microbial degradation of the plant flavonol quercetin and its naturally occurring glycosides isoquercitrin and rutin in the porcine hindgut. The experiments were carried out with the semicontinuous colon-simulation technique. The fluid and particle phase of pig hindgut contents from freshly slaughtered animals were used for the in vitro incubations. Following a five-day equilibration period, quercetin, isoquercitrin or rutin were administered to fermentation vessels and their turnover rate was determined. None of the flavonols affected parameters of microbial fermentation like pH, redox potential or VFA production. The turnover rate for isoquercitrin was seven times higher than the turnover for the fermentation fluid. The turnover rates for quercetin and rutin were four and twofold higher than fluid turnover, respectively. After administration of isoquercitrin or rutin, their aglycone quercetin was detected as an intermediary metabolite. Under sterile conditions using autoclaved incubation fluids and hindgut contents, turnover rates for quercetin and rutin were still higher than the fluid turnover in the fermentation vessels. This indicates a certain chemical instability of the flavonols and/or adsorption to ingesta particles. Thus, flavonols are subjected to microbial metabolism in the porcine hindgut. The glycosidic structure strongly influences the rate of metabolism.     

Antioxidative activity of flavonoids in various systems of lipid peroxidation

The antioxidant action of flavonols in different systems of lipid peroxidation (LPO) was studied. Quercetin and rutin were found to inhibit NADPH and CCl4-dependent LPO in rat liver microsomes, however, in the case of CCl4-dependent LPO, rutin had a very poor antioxidant effect. Study of flavonols oxidation by products of the cytochrome c catalyzed destruction of linoleic acid hydroperoxide demonstrated that the differences in the antioxidant offects of quercetin and rutin can be due to their different capability to terminate free radical chain reactions. The antioxidant effect of rutin was shown to be largely due to the chelating properties of this compound.     

Flavonoids in plant nuclei: detection by laser microdissection and pressure catapulting (LMPC), in vivo staining, and uv–visible spectroscopic titration

Previous studies in our laboratory have indicated that the nuclei of a number of trees are associated with flavonoids, especially flavan‐3‐ols. In the present study, three techniques were applied to verify that flavonoids are naturally incorporated into nuclei. These were histochemistry, UV–visible (UV‐VIS) titration and laser microdissection. Nuclei from intact seed wings of Tsuga canadensis were isolated from their cells using laser microdissection and pressure catapulting (LMPC). Thereafter, the excised nuclei were stained with p‐dimethylamino‐cinnamaldehyde (DMACA), which resulted in a blue coloration due to the presence of flavanols. Thus, there is no doubt that the nuclei were, prior to staining, associated with flavanols. The nuclei of the coniferous species Abies lasiocarpa, Cedrus deodara, Cedrus libani, Juniperus communis, Picea abies, Picea orientalis and Pseudotsuga menziessii(Douglas fir) showed a yellow fluorescence typical for flavonols from the beginning of bud break over the entire growing season. However, after the bud‐breaking period, the nuclei of all species, except for Cedrus deodara, showed additionally a blue reaction for flavanols. Rather late, in midsummer, blue‐stained flavanols in nuclei were found in Picea orientalis. Generally, zeatin intensified the flavanol association with the nuclei. The main components of nucleosomes are DNA and the histone proteins. The nature of their association with the flavonols quercetin and rutin was investigated by UV‐VIS spectroscopic titration. The data were evaluated by means of the Mauser (A and AD) diagrams. The results indicate that DNA shows largely no spectroscopically detectable association equilibria under the experimental conditions chosen. However, association (aggregation) equilibria can be observed with rutin or quercetin and histone sulphate in Tris buffer (pH 8.0, 7.4 and 7.0). In phosphate buffer, rutin shows spectroscopically no or only weak association with histone sulphate, in contrast to its behaviour towards quercetin.     

Regulation of phenylacetic acid degradation genes of Burkholderia cenocepacia K56-2

Background  

Metabolically versatile soil bacteria Burkholderia cepacia complex (Bcc) have emerged as opportunistic pathogens, especially of cystic fibrosis (CF). Previously, we initiated the characterization of the phenylacetic acid (PA) degradation pathway in B. cenocepacia, a member of the Bcc, and demonstrated the necessity of a functional PA catabolic pathway for full virulence in Caenorhabditis elegans. In this study, we aimed to characterize regulatory elements and nutritional requirements that control the PA catabolic genes in B. cenocepacia K56-2.     

Identification of potent pyrazole based APELIN receptor (APJ) agonists

The apelinergic system comprises the apelin receptor and its cognate apelin and elabela peptide ligands of various lengths. This system has become an increasingly attractive target for pulmonary and cardiometabolic diseases. Small molecule regulators of this receptor with good drug-like properties are needed. Recently, we discovered a novel pyrazole based small molecule agonist 8 of the apelin receptor (EC₅₀ = 21.5 µM, K_i = 5.2 µM) through focused screening which was further optimized to initial lead 9 (EC₅₀ = 0.800 µM, K_i = 1.3 µM). In our efforts to synthesize more potent agonists and to explore the structural features important for apelin receptor agonism, we carried out structural modifications at N1 of the pyrazole core as well as the amino acid side-chain of 9. Systematic modifications at these two positions provided potent small molecule agonists exhibiting EC₅₀ values of <100 nM. Recruitment of β-arrestin as a measure of desensitization potential of select compounds was also investigated. Functional selectivity was a feature of several compounds with a bias towards calcium mobilization over β-arrestin recruitment. These compounds may be suitable as tools for in vivo studies of apelin receptor function.     

Synthesis and anti-cancer activity of bis-amino-phosphine ligand and its ruthenium(II) complexes

The development of both chemotherapeutic drug resistance as well as adverse side effects suggest that the current chemotherapeutic drugs remain ineffective in treating the various types of cancers. The development of new metallodrugs presenting anti-cancer activity is therefore needed. Ruthenium complexes have gained a great deal of interest due to their promising anti-tumour properties and reduced toxicity in vivo. This study highlighted the effective induction of cell death in a malignant melanoma cell by two novel bis-amino-phosphine ruthenium(II) complexes referred to as GA105 and GA113. The IC₅₀ concentrations were determined for both the complexes, the ligand and cisplatin, for comparison. Both complexes GA105 and GA113 displayed a high anti-cancer selectivity profile as they exhibited low IC₅₀ values of 6.72 µM and 8.76 µM respectively, with low toxicity towards a non-malignant human cell line. The IC₅₀ values obtained for both complexes were lower than that of cisplatin. The new complexes were more effective compared to the free ligand, GA103 (IC₅₀ = >20 µM). Morphological studies on treated cells induced apoptotic features, which with further studies could indicate an intrinsic cell death pathway. Additionally, flow cytometric analysis revealed that the mode of cell death of complex GA113 was apoptosis. The outcomes herein give further insight into the potential use of selected Ru(II) complexes as alternative chemotherapeutic drugs in the future.