核黄素与脱氧核糖核酸相互作用的电化学和光谱法研究

在实验条件接近人体生理环境的pH7.4的Tris-HCl缓冲溶液中,分别采用电化学方法、紫外光谱法及荧光法并利用中性红作电化学探针,研究了核黄素和小牛胸腺DNA的相互作用。随着DNA浓度逐渐增加,核黄素的峰电流减小,峰位正移;紫外光谱产生减色效应;核黄素的荧光发生猝灭以及核黄素和中性红竞争与DNA相互作用等,采用几种方法的实验结果都表明两者能发生嵌插结合;多种计算方法得到两者作用的结合位点数为1,结合常数达到105(mol/L)-1。     

Stilbene and 2-arylbenzofuran glucosides from the rhizomes of Schoenocaulon officinale

Two stilbene glucosides, oxyresveratrol 2-O-beta-glucopyranoside and resveratrol 3,4'-O,O'-di-beta-D-glucopyranoside, and a 2-arylbenzofuran glucoside, schoenoside, were isolated from the rhizomes of Schoenocaulon officinale, along with five known compounds, oxyresveratrol 3'-O-beta-D-glucopyranoside, oxyresveratrol, resveratrol 3-O-beta-D-glucopyranoside, mulberroside A and moracin M 3'-O-beta-D-glucopyranoside. The structural elucidations were based on analyses of both physical and spectroscopic data.     

Identification of seven metabolites of oxyresveratrol in rat urine and bile using liquid chromatography/tandem mass spectrometry

Oxyresveratrol (trans‐2,4,3′,5′‐tetrahydroxystilbene) is a major compound isolated from Smilax china, a Chinese herbal medicine. The rat urine and bile samples were pretreated by solid‐phase extraction method after oral administration at a dose of 100 mg/kg of oxyresveratrol. Seven metabolites were identified by LC‐MS/MS method with electrospray ionization in negative ion mode. The results indicated that main metabolites of oxyresveratrol were monoglucuronided and monosulfated oxyresveratrol. Based on the results, the metabolic pathway of oxyresveratrol in rat urine and bile was proposed. Copyright © 2009 John Wiley & Sons, Ltd.     

Chemopreventive action of xanthone derivatives on photosensitized DNA damage

Photosensitized DNA damage participates in solar-UV carcinogenesis, photogenotoxicity and phototoxicity. A chemoprevention of photosensitized DNA damage is one of the most important methods for the above phototoxic effects. In this study, the chemopreventive action of xanthone (XAN) derivatives (bellidifolin [BEL], gentiacaulein [GEN], norswertianin [NOR] and swerchirin [SWE]) on DNA damage photosensitized by riboflavin was demonstrated using [32P]-5'-end-labeled DNA fragments obtained from genes relevant to human cancer. GEN and NOR effectively inhibited the formation of piperidine-labile products at consecutive G residues by photoexcited riboflavin, whereas BEL and SWE did not show significant inhibition of DNA damage. The four XAN derivatives decrease the formation of 8-oxo-7,8-dihydro-2'-deoxyguanosine (8-oxodGuo), an oxidative product of G, by photoexcited riboflavin. The preventive action for the 8-oxodGuo formation of these XAN derivatives increased in the following order: GEN>NOR>BEL>SWE. A fluorescence spectroscopic study and ab initio molecular orbital calculations suggested that the prevention of DNA photodamage is because of the quenching of the triplet excited state of riboflavin by XAN derivatives through electron transfer. This chemoprevention is based on neither antioxidation nor a physical sunscreen effect; rather, it is based on the quenching of a photosensitizer. In conclusion, XAN derivatives, especially GEN, may act as novel chemopreventive agents by the quenching mechanism of an excited photosensitizer.     

Photosensitizer initiated attacks on DNA under dry conditions and their inhibition: a DNA archiving issue

Long-term aging of dry DNA is thought to be due to the attack of diverse cascades of reactive species with probably, no one single initiator of the cascades explaining all circumstances. Photosensitizer-initiated reactions from methylene blue and riboflavin were used to generate two model systems of reactive species around dry DNA in order to understand such systems and how to block them. Damage was assessed using plasmid DNA as a substrate with an in-situ microgel electrophoretic technique. Photodynamic methylene blue damage to DNA was very oxygen dependent but not that of riboflavin. This indicates that indirect type II pathways, probably via singlet oxygen were important for methylene blue but not for riboflavin. In both the absence and presence of oxygen, the DNA protection offered by dry caffeine and urate to both photodynamic agents indicated that most DNA attack was via electrophilic species. Overall, protection of dry archived DNA from spontaneously reactive species such as free radicals appears to be a real issue and, as expected, the predominant species in air appear to involve oxygen but not exclusively or necessarily so.     

Phenolics with antiviral activity from Millettia erythrocalyx and Artocarpus lakoocha

From the leaves of Millettia erythrocalyx, a new flavone named 3',5'-dimethoxy-[2",3": 7,8]-furanoflavone and three known compounds were isolated. Assays for anti-herpes simplex virus activity (HSV-1 and HSV-2) were performed on 24 phenolic compounds obtained from M. erythrocalyx and Artocarpus lakoocha. It was found that the flavones ovalifolin, pongol methyl ether and millettocalyxin A, and the stilbene oxyresveratrol possessed moderate activity against both types of HSV. In addition, oxyresveratrol was evaluated for potential anti-HIV activity against a wild-type human immunodeficiency virus type 1 (HIV-1/LAI) isolate and was found to be a modest inhibitor of HIV (EC50 28.2 microM), showing no toxicity in PBM, CEM and Vero cells at 100 microM. The heartwood of A. lakoocha, which contains a large amount of oxyresveratrol, could be considered as a source of starting material for the development of new natural product-based anti-HSV and anti-HIV agents.     

Oxyresveratrol-Loaded PLGA Nanoparticles Inhibit Oxygen Free Radical Production by Human Monocytes: Role in Nanoparticle Biocompatibility

Oxyresveratrol, a polyphenol extracted from the plant Artocarpus lakoocha Roxb, has been reported to be an antioxidant and an oxygen-free radical scavenger. We investigated whether oxyresveratrol affects the generation of superoxide anion (O₂⁻) by human monocytes, which are powerful reactive oxygen species (ROS) producers. We found that oxyresveratrol inhibited the O₂⁻ production induced upon stimulation of monocytes with β-glucan, a well known fungal immune cell activator. We then investigated whether the inclusion of oxyresveratrol into nanoparticles could modulate its effects on O₂⁻ release. We synthesized poly(lactic-co-glycolic acid) (PLGA) nanoparticles, and we assessed their effects on monocytes. We found that empty PLGA nanoparticles induced O₂⁻ production by resting monocytes and enhanced the formation of this radical in β-glucan-stimulated monocytes. Interestingly, the insertion of oxyresveratrol into PLGA nanoparticles significantly inhibited the O₂⁻ production elicited by unloaded nanoparticles in resting monocytes as well as the synergistic effect of nanoparticles and β-glucan. Our results indicate that oxyresveratrol is able to inhibit ROS production by activated monocytes, and its inclusion into PLGA nanoparticles mitigates the oxidative effects due to the interaction between these nanoparticles and resting monocytes. Moreover, oxyresveratrol can contrast the synergistic effects of nanoparticles with fungal agents that could be present in the patient tissues. Therefore, oxyresveratrol is a natural compound able to make PLGA nanoparticles more biocompatible.     

Oxyresveratrol Inhibits R848-Induced Pro-Inflammatory Mediators Release by Human Dendritic Cells Even When Embedded in PLGA Nanoparticles

Oxyresveratrol, a stilbene extracted from the plant Artocarpus lakoocha Roxb., has been reported to provide a considerable anti-inflammatory activity. Since the mechanisms of this therapeutic action have been poorly clarified, we investigated whether oxyresveratrol affects the release of the pro-inflammatory cytokines IL-12, IL-6, and TNF-α by human dendritic cells (DCs). We found that oxyresveratrol did not elicit per se the release of these cytokines, but inhibited their secretion induced upon DC stimulation with R848 (Resiquimod), a well-known immune cell activator engaging receptors recognizing RNA viruses. We then investigated whether the inclusion of oxyresveratrol into nanoparticles promoting its ingestion by DCs could favor its effects on cytokine release. For this purpose we synthesized and characterized poly(lactic-co-glycolic acid) (PLGA) nanoparticles, and we assessed their effects on DCs. We found that bare PLGA nanoparticles did not affect cytokine secretion by resting DCs, but increased IL-12, IL-6, and TNF-α secretion by R848-stimulated DCs, an event known as “priming effect”. We then loaded PLGA nanoparticles with oxyresveratrol and we observed that oxyresveratrol-bearing particles did not stimulate the cytokine release by resting DCs and inhibited the PLGA-dependent enhancement of IL-12, IL-6, and TNF-α secretion by R848-stimulated DCs. The results herein reported indicate that oxyresveratrol suppresses the cytokine production by activated DCs, thus representing a good anti-inflammatory and immune-suppressive agent. Moreover, its inclusion into PLGA nanoparticles mitigates the pro-inflammatory effects due to cooperation between nanoparticles and R848 in cytokine release. Therefore, oxyresveratrol can be able to contrast the synergistic effects of nanoparticles with microorganisms that could be present in the patient tissues, therefore overcoming a condition unfavorable to the use of some nanoparticles in biological systems.     

碲化镉量子点作为探针研究核黄素与鲑鱼精DNA的相互作用

在水相中合成了巯基丙酸包覆的CdTe量子点（CdTe QDs）,以CdTe QDs作为探针,在pH 7.25 Britton-Robinson（B-R）缓冲溶液中,应用荧光光谱法、紫外吸收光谱法,对核黄素（RF）与鲑鱼精DNA作用方式进行了研究.RF与DNA作用时,使荧光强度降低,紫外吸收明显减色,通过盐效应实验和DN...     

Competitive Assay for Theophylline Based on an Abasic Site‐Containing DNA Duplex Aptamer and a Fluorescent Ligand

A fluorescence assay for theophylline, one of the common drugs for acute and chronic asthmatic conditions, has been developed based on an abasic site‐containing DNA duplex aptamer (AP aptamer) in combination with an abasic site‐binding fluorescent ligand, riboflavin. The assay is based on the competitive binding of theophylline and riboflavin at the abasic (AP) site of the AP aptamer. In the absence of theophylline, riboflavin binds to the receptor nucleotide opposite the AP site, which leads to fluorescence quenching of the riboflavin. Upon addition of theophylline, competitive binding occurs between theophylline and riboflavin, which results in an effective fluorescence restoration due to release of riboflavin from the AP site. From an examination of the optimization of the AP aptamers, the complex of riboflavin with a 23‐mer AP aptamer (5′‐TCT GCG TCC AGX GCA ACG CAC AC‐3′/5′‐GTG TGC GTT GCC CTG GAC GCA GA‐3′; X : the AP site (Spacer C3, a propylene residue)) possessing cytosine as a receptor nucleotide was found to show a selective and effective fluorescence response to theophylline; the limit of detection for theophylline was 1.1 μM . Furthermore, fluorescence detection of theophylline was successfully demonstrated with high selectivity in serum samples by using the optimized AP aptamer and riboflavin.     

Improvement of stilbenoid production by 2-hydroxypropyl-β-cyclodextrin in white mulberry (Morus alba L.) callus cultures

Mulberroside A, oxyresveratrol and resveratrol, commonly found in Morus alba L., are potent anti-aging phytostilbenes. In this study, the effect of the addition of 2-hydroxypropyl-β-cyclodextrin on the levels of phytostilbenes in M. alba callus cultures was investigated. Commercial cyclodextrin was used in the hydrolytic and culture processes of the M. alba callus cultures. The hydrolytic study indicated that 2-hydroxypropyl-β-cyclodextrin acted as a retardant for stilbenoid hydrolysis. It reduced mulberroside A deglycosylation and stabilised oxyresveratrol. The elicitation result showed that extracellular oxyresveratrol was increased by adding 2-hydroxypropyl-β-cyclodextrin to the culture media of both free and immobilised M. alba callus (>730-fold and >169-fold, respectively) compared with those of the control. However, the intracellular mulberroside A levels in the treatment groups did not increase compared with those of the control. The results show that the addition of 2-hydroxypropyl-β-cyclodextrin significantly changed the patterns and levels of the stilbenoids in M. alba callus cultures.     

DNA STRAND BREAKS IN MAMMALIAN CELLS EXPOSED TO LIGHT IN THE PRESENCE OF RIBOFLAVIN AND TRYPTOPHAN

Abstract— When mammalian cells were exposed to visible-fluorescent light or near-UV light in the medium containing riboflavin and L-tryptophan, single-strand breaks appeared in their DNA. This did not occur if either riboflavin or tryptophan was omitted from the medium. The same effect was observed when cells were added to the pre-irradiated medium, indicating that a stable photoproduct was responsible. The induced DNA lesions were shown to be equally repairable in both excision proficient and defective (xeroderma pigmentosum) human cell lines. The active photoproduct formed was shown to be hydrogen peroxide. The possible relationship between these results and the near-UV induced killing of mammalian cells is discussed.     

Photosensitized DNA damage and its protection via a novel mechanism

UVA, which accounts for approximately 95% of solar UV radiation, can cause mutations and skin cancer. Based mainly on the results of our study, this paper summarizes the mechanisms of UVA-induced DNA damage in the presence of various photosensitizers, and also proposes a new mechanism for its chemoprevention. UVA radiation induces DNA damage at the 5'-G of 5'-GG-3' sequence in double-stranded DNA through Type I mechanism, which involves electron transfer from guanine to activated photosensitizers. Endogenous sensitizers such as riboflavin and pterin derivatives and an exogenous sensitizer nalidixic acid mediate DNA photodamage via this mechanism. The major Type II mechanism involves the generation of singlet oxygen from photoactivated sensitizers, including hematoporphyrin and a fluoroquinolone antibacterial lomefloxacin, resulting in damage to guanines without preference for consecutive guanines. UVA also produces superoxide anion radical by an electron transfer from photoexcited sensitizers to oxygen (minor Type II mechanism), and DNA damage is induced by reactive species generated through the interaction of hydrogen peroxide with metal ions. The involvement of these mechanisms in UVA carcinogenesis is discussed. In addition, we found that xanthone derivatives inhibited DNA damage caused by photoexcited riboflavin via the quenching of its excited triplet state. It is thus considered that naturally occurring quenchers including xanthone derivatives may act as novel chemopreventive agents against photocarcinogenesis.     

Apoptosis Induction in Nonirradiated Human HL-60 and Murine NSO/2 Tumor Cells by Photoproducts of lndole-3-acetic Acid and Riboflavin

The effect of the photoproducts of indole-3-acetic acid sensitized by riboflavin on nonirradiated human HL-60 and murine NSO/2 tumor cells was studied. Severe damage with a dose-response effect was observed on both cell types. The effect was greater than that previously described for the tryptophan riboflavin photoproducts. Electron microscopy studies and flow cytometry analysis of DNA fragmentation allowed us to conclude that the photoproducts studied in this work induce cell death by an apoptotic mechanism.     

Gnetupendin C, a New Stilbene Dimer from the Lianas of Gnetum Pendulum

Continuous investigation on stilbenoids from the lianas of Gnetum pendulum1 resulted in the isolation of a new dimer, Gnetupendin C (1), a cis-2, 3-dihydrobenzofuran dimer of resveratrol and oxyresveratrol.Gnetupendin C (1) was obtained as yellowish amorphous power, [(] -220.0 (c 0.100, MeOH). UV (c 0.02, MeOH) (max (log (): 222 (4.5), 288 (sh), 310 (sh), 327 (4.4) nm. The high resolution EIMS, m/z 470.1344, agreed with a molecular formula of C28H22O7 (requires 470.1366) and the 1H NM…     

Homogeneous enzyme-linked competitive binding assay for riboflavin

A rapid and precise homogeneous enzyme-linked competitive binding assay for riboflavin (vitamin B₂) is described. The method utilizes a malate dehydrogenase/3-carboxymethylriboflavin conjugate in conjunction with soluble riboflavin binding protein. In the absence of the vitamin, the catalytic activity of the enzyme/riboflavin conjugate is inhibited up to 71% by the binding protein. In the presence of riboflavin, activity is regained in an amount dependent on the riboflavin concentration. The detection limits of the dose/response curves are dependent on both the degree of conjugation (average number of 3-carboxymethylriboflavins per enzyme molecule) and the reagent ratio (conjugate/binder) used in the assay tube. Under optimized conditions, a detection limit of 3 ng ml^?1 of riboflavin can be achieved with high selectivity over other vitamins and biomolecules. While malate dehedrogenase activity is inhibited to some degree by components of human urine, use of riboflavin standards prepared in a diluted urine matrix enables the method to be utilized for direct determination of urinary riboflavin.     

An improved highly sensitive method to determine low oxyresveratrol concentrations in rat plasma and its pharmacokinetic application

Existing methods to determine oxyresveratrol, a trans‐polyphenolic stilbene, lack selectivity, require large plasma sample volumes or have time‐consuming sample preparation and chromatographic isolation. Here an improved highly sensitive liquid chromatography–tandem mass spectrometry method was developed to determine low oxyresveratrol concentrations in rat plasma. The plasma samples were prepared by liquid–liquid extraction with acetoacetate. The analyte s were separated on Venusil hydrophilic interaction chromatography (HILIC) column (2.1 × 50 mm, 5.0 µm) guarded by a HILIC column (4 × 3.0 mm, 5.0 µm). The mobile phase consisted of acetonitrile–water (containing 1 mmol/L ammonium formate) at gradient elution mode with a flow rate of 0.3 mL/min. Resveratrol was used as the internal standard. An electrospray ionization source was applied and operated in the negative multiple reaction monitoring (MRM) mode. Oxyresveratrol and resveratrol were detected on MRM by the transitions from the precursor to the product ion (m/z 243.1 → 175.1 and 227.1 → 143.0). The total running time was 5 min and the retention times of oxyresveratrol and resveratrol were 1.97 and 1.82 min. Chromatograms showed no endogenous interfering peaks with blank samples. The linear calibration curve was obtained over the concentration range of 1–500 ng/mL. The injection volume was 10 μL and the limit of quantification was 1 ng/mL. The extraction recovery varied from 78.2 to 84.3% for low, medium and high quality control samples. At the same time, the intra‐ and inter‐day relative standard deviations were <6.78 and <10.02%, respectively, while the corresponding intra‐ and inter‐day accuracy relative error values fell in the range of 3.75–6.67%. The HPLC‐MS/MS method was successfully applied to a pharmacokinetics study, in which the experimental rats received a single dose of oxyresveratrol (10 mg/kg, intragastric administration). The pharmacokinetic results are presented. Copyright © 2013 John Wiley & Sons, Ltd.     

RNA aptamers that bind flavin and nicotinamide redox cofactors

RNA molecules that specifically bind riboflavin (Rb) and beta-nicotinamide mononucleotide (NMN) have been isolated by in vitro selection. A simple structural motif containing intramolecular G-quartets was found to bind tightly to oxidized riboflavin (Kd = 1-5 micromolar). DNA versions of the consensus sequence also bind, but with weaker affinity. DMS protection experiments show that the quartet structure of these aptamers is stabilized by interaction with the flavin. As a measure of their redox specificity, the aptamers do not show significant differential binding between oxidized and reduced forms of a 5-deazariboflavin derivative that is a close structural analog of riboflavin. In contrast to the lack of redox specificity of the riboflavin aptamers, RNAs selected for binding to the nicotinamide portion of NAD discriminate between NAD and NADH in solution by over an order of magnitude. A mutagenized pool based on one of the NMN aptamer sequences was used to reselect for NMN binding. Comparison of the reselected sequences led to the identification of the binding region of the aptamer. A complex secondary structure containing two interacting stem-loops is proposed for the minimal NMN-binding RNA. The same mutagenized pool was used to select for increased discrimination between NMN and NMNH. From these reselected sequences, a mutation within the binding region was identified that increases specificity for NMN. These experiments show that RNA can bind these cofactors with low micromolar affinity and, in the case of nicotinamide cofactors, can discriminate between the two redox states. These cofactor binding motifs may provide a framework for generating new ribozymes that catalyze redox reactions similar to those found in basic metabolic pathways.     

Cuspidans A and B, two new stilbenoids from the bark of Gnetum cuspidatum

Cuspidan A (1), a new stilbene sestermer consisting of a resveratrol, an oxyresveratrol, and a 3,5-dihydroxyphenylmethanol constituent units and cuspidan B (2), a new tri-cyclic stilbene monomer were isolated from the bark of Gnetum cuspidatum. The structures and configurations of 1 and 2 were elucidated on the basis of 2D-NMR correlations.     

Riboflavin Interactions with Oxygen—A Survey from the Photochemical Perspective

In this short review we provide some insights to the main processes that riboflavin is involved in upon absorption of a photon. We describe riboflavin properties in its interactions with oxygen, comparing them to the properties of some other singlet oxygen sensitizers. Data are provided on riboflavin photosensitizing properties in vivo and in vitro, and its properties as an endogenous singlet oxygen sensitizer are discussed. We additionally report flavin catalytic role in organic synthesis and photochemical reactivity in solutions of riboflavin and some of its derivatives.