6-羟基染料木素与8-羟基染料木素的制备及生物活性研究进展

6-羟基染料木素(6-OHG)和8-羟基染料木素(8-OHG)是染料木素A环上C6或C8位发生羟基化反应生成的衍生物,其分子中有更多酚羟基,同时含有邻二酚羟基结构,这也使它们的生物活性与染料木素相比发生了显著变化。研究表明,6-OHG和8-OHG具有抗氧化、抗诱变、抑制磷酸二酯酶3B活性、抗糖化、保肝、抗黑色素生成作用、改善记忆力等广泛的药理活性。本文将对6-OHG和8-OHG的来源、制备方法和生物活性研究进行综述,以期为两个化合物的开发利用提供参考。     

黄芪异黄酮类化合物抗氧化活性的密度泛函理论研究

本文采用密度泛函理论中的B3LYP方法在6-311G(d,p)水平上对黄芪中的四种异黄酮类化合物毛蕊异黄酮、毛蕊异黄酮苷、芒柄花素、芒柄花苷进行了优化计算,从四个分子的几何结构、酚羟基氢原子上的NBO电荷、酚羟基解离能、HOMO和LUMO能级以及其能级差△E(LUMO-HOMO)等方面分析了四种黄芪异黄酮类化合物清除自由基的活性.C3.位的酚羟基为毛蕊异黄酮苷元及其苷分子的最大可能活性位点,C7位酚羟基也具有一定的活性,可以增加分子本身的抗氧化活性,C7位酚羟基为芒柄花素分子的活性位点.C3,位或C7位上酚羟基氢原子带正电荷越大、酚羟基的解离能越小、△E(LUMO-HOMO)越小、HOMO能级相对越高分子的抗氧化活性越高.糖苷取代C7位酚羟基上的H原子,可以提高HOMO、LUMO的轨道能级,但是分子失去了7位酚羟基,从而降低了毛蕊异黄酮苷分子的抗氧化活性.结果表明,四种黄芪异黄酮类化合物的抗氧化能力大小为:毛蕊异黄酮＞毛蕊异黄酮苷＞芒柄花素＞＞芒柄花苷.对芒柄花素和羟基自由基反应的过渡态进行了计算研究.     

染料木素的化学修饰研究进展

大豆异黄酮染料木素具有抗氧化活性、心血管保护、抗癌、抗炎、抗溃疡及雌激素等多种药理功能。本文综述了染料木素的化学修饰研究进展,为进行前药分子设计、寻找活性化合物提供依据。     

染料木素乳糖苷的选择性合成

染料木素(genistein)和染料木苷(Genistin)作为大豆异黄酮中的主要活性成分,是一类具有弱雌激素样活性的异黄酮.     

抗癌新药染料木素的电化学行为及其应用研究

研究了新型抗癌药物染料木素在pH=1～12水溶液中的极谱行为。在不同pH范围内得到了染料木素的四个还原波。研究证实在ph＜5的条件下所获得的P1波及5＜pH＜10介质中获得的P2波为染料木素中性分子的两电子,单质子及其电离形成一价阴离子的两电子,单质子不可逆吸附还原波。在pH＜6的条件下所获得的P3波属于染料木素解离形成阴离子的不可逆强吸附前波,而P4波则属于染料木素在碱性介质中解离形成高价阴离子的不可逆吸附还原波。此外通过邻苯三酚自氧化产生活性氧自由基的再还原,对染料木素清除活性氧自由基的能力进行了研究,从电化学的角度对其药理机制进行了阐述。     

蒲公英黄酮抗氧化活性的构效关系分析

蒲公英作为传统的中药材,具有抗氧化、抗肿瘤、抗菌、抗炎等多种药用价值。黄酮是蒲公英发挥抗氧化作用的重要活性成分。蒲公英黄酮抗氧化性能的实验研究备受关注,然而从分子水平对蒲公英黄酮结构与抗氧化活性之间的内在关系缺乏系统的研究。本文借助于密度泛函理论,针对蒲公英中5种重要的黄酮化合物(槲皮素、芦丁、木犀草素、芹菜素、香叶木素),通过优化结构参数、捕获DPPH自由基的热力学能量分析,NBO电荷分布、半醌自由基的自旋密度分析等方面深入探讨了蒲公英黄酮化合物抗氧化活性的构效关系及内在规律。结果表明：5种蒲公英黄酮化合物抗氧化活性为芦丁>槲皮素>木犀草素>>香叶木素>芹菜素,酚羟基的位置是影响蒲公英黄酮抗氧化活性差异的主要因素。蒲公英黄酮不同位点抗氧化活性的高低与其酚羟基上H原子的电荷分布、黄酮自由基的稳定性成正比关系,自由基单电子的离域程度和分子内氢键的稳定化作用共同决定了B环4’-OH是蒲公英黄酮的关键活性位点。     

两种新型水溶性异黄酮衍生物的合成与抗氧化活性

合成了未见文献报道的水溶性的3'-磺酸钠-4',7-二羧甲氧基异黄酮(L1)和3'-磺酸钠-4'-羟基-7-羧甲氧基异黄酮(L2), 采用IR, UV, ¹H NMR和元素分析对其结构进行了表征, 利用荧光光谱法研究了它们和母体大豆甙元(D)对羟基自由基的清除活性, 用紫外光谱法研究了其对超氧阴离子自由基和1,1-二苯基-2-苦肼基自由基(1,1-diphenyl-2-picrylhydrazyl free radical, 简称DPPH)的清除活性; 并采用量子化学AM1方法在全几何构型优化的基础上进行了电荷布居分析, 计算了它们抽氢反应的生成热(∆H_f), 从而从理论上探讨了目标化合物清除羟基自由基的活性. 实验结果表明本文合成的两种水溶性化合物清除超氧阴离子自由基和DPPH自由基的活性要优于母体大豆甙元, 对于目标化合物清除羟基自由基的活性, 实验和理论结果都显示其清除活性要优于大豆甙元．     

竹红菌甲素在脂质体溶液中的光动力作用研究

系统地研究了竹红菌甲素(HA)和卵磷脂脂质体结合后的光动力作用.通过二苯基蒽光氧化和顺磁共振ESR方法报道了光敏HA产生单重态氧~1O_2,并测定了单重态氧量子产率.用自旋捕获ESR方法测得光照HA-脂质体溶液产生羟基自由基·OH并证实际·OH来源于超氧阴离子自由基O_(?)~-,同时研究了HA在无氧条件下的光还原反应.     

两种黄酮类肟、肟醚衍生物的合成及活性研究

染料木素和柚皮素分别为黄酮类天然活性分子，具有抗氧化和抗肿瘤等多种生物活性。以染料木素和柚皮素为母体，分别在染料木素7-位酚羟基和柚皮素4-位羰基上引入含氮的肟基和肟醚单元，合成了4个黄酮肟和6个黄酮肟醚，并通过核磁共振(¹H NMR)及高分辨质谱(HR-MS)进行了结构表征。采用MTT法对胃癌细胞株SGC-7901体外抗肿瘤活性筛选。结果表明：含肟基的化合物活性优于肟醚，化合物3c对胃癌细胞株SGC-7901有较好的抑制作用。     

黄酮类药物与氯金酸的作用及其分析应用

将4种黄酮类药物染料木素、木犀草素、大豆素及柚皮素与氯金酸在不同酸度条件下反应形成金纳米颗粒. 研究发现, 生成的金纳米颗粒的等离子体共振吸收信号与4种黄酮类药物的浓度呈线性关系, 从而建立了这4种典型黄酮类药物的测定方法. 分析了黄酮类药物的分子结构并利用Materials-studio 4.0软件计算了各原子的电子云密度分布. 结果表明, 4种黄酮类药物与氯金酸作用的适宜酸度与黄酮类化合物结构中的酚羟基数和碱性氧的电子云密度分布有关.     

Key role of chemical hardness to compare 2,2-diphenyl-1-picrylhydrazyl radical scavenging power of flavone and flavonol O-glycoside and C-glycoside derivatives

The antioxidant activities of flavonoids and their glycosides were measured with the 2,2-diphenyl-1-picrylhydrazyl radical (DPPH radical, DPPH(·)) scavenging method. The results show that free hydroxyl flavonoids are not necessarily more active than O-glycoside. Quercetin and kaempferol showed higher activity than apigenin. The C- and O-glycosides of flavonoids generally showed higher radical scavenging activity than aglycones; however, kaempferol C3-O-glycoside (astragalin) showed higher activity than kaempferol. In the radical scavenging activity of flavonoids, it was expected that OH substitutions at C3 and C5 and catechol substitution at C2 of B ring and intramolecular hydrogen bonding between OH at C5 and ketone at C3 would increase the activity; however, the reasons have yet to be clarified. We here show that the radical scavenging activities of flavonoids are controlled by their absolute hardness (η) and absolute electronegativity (χ) as a electronic state. Kaempferol and quercetin provide high radical scavenging activity since (i) OH substitutions at C3 and C5 strikingly decrease η of flavones, (ii) OH substitutions at C3 and C7 decrease χ and η of flavones, and (iii) phenol or o-catechol substitution at C2 of B ring decrease χ of flavones. The coordinate r(χ,?η) as the electron state must be small to increase the radical scavenging activity of flavonoids. The results show that chemically soft kaempferol and quercetin have higher DPPH radical scavenging activity than chemically hard genistein and daidzein.     

黄酮类化合物与α-羟乙基过氧自由基反应的脉冲辐解研究

由于脂质过氧化反应(LPO)是导致人体疾病(如肝炎、肝硬化、动脉硬化、脑溢血等)的主要原因, 而黄酮类化合物是一类很强的过氧化反应抑制剂, 因此有必要研究其化学结构与过氧化反应的关系及其抗氧化机理.本文选择α-羟乙基过氧自由基为脂质过氧自由基的模拟物, 采用脉冲辐解方法研究了乙醇溶液中4种典型的黄酮类化合物(槲皮素、芦丁、儿茶素以及黄岑甙)与α-羟乙基过氧自由基的反应动力学, 测得其反应活性顺序为:芦丁>槲皮素>黄岑甙>儿茶素. 同时以黄酮体和邻苯二酚为黄酮类化合物不同结构特征的模型化合物, 用脉冲辐解法测得二者与α-羟乙基过氧自由基的反应速率常数分别为(1.7±0.1)×10⁶和(2.9±0.1)×10⁵ mol^-1·dm³·s^-1.实验结果表明, 在黄酮类化合物与α-羟乙基过氧自由基的反应中, A环C₅位的羟基, C环C₂＝C₃或B-C环的大π键和B环邻二羟基共存时清除α-羟乙基过氧自由基活性最好, 而且C环C₂＝C₃或B-C环大π键的清除活性好于B环邻二羟基, 同时C环是否含有C₃-醣甙结构对清除作用没有明显影响. 因此我们推测在黄酮类化合物抑制脂质过氧化反应过程中, 起主要作用的是C环C₂＝C₃或B-C环的大π键与脂质过氧自由基的双键加成反应.     

In vitro antioxidant/prooxidant effects of combined use of flavonoids

The present study was undertaken to investigate the individual and combined antioxidant or prooxidant effects of genistein, daidzein and quercetin in human erythrocytes and rat microsomes in vitro. Their reducing potential against oxidation of a redox sensitive fluorescent probe, their protective effect against H₂O₂-induced membrane lipid peroxidation and their inhibitory effect on AAPH-induced hemolysis were evaluated. Genistein and daidzein were prooxidant in erythrocytes but antioxidant in microsomes where their metabolites might have been formed which suggests the importance of metabolic capacity in in vitro models to predict the physiological situation. Quercetin showed antioxidant effects in all models and conditions. Prooxidant effect of ‘genistein–daidzein mixture’, at their concentrations reflecting the real life, was suppressed by addition of quercetin to the mixture. Our study shows that flavonoids can exert prooxidant effects depending on the conditions, but the mixture effect should be considered while assessing their effects and safety in humans.     

Interactions of genistein and related isoflavones with lipid micelles

Genistein (5,7,4'-trihydroxyisoflavone) modulates the function of several transmembrane ion-channel proteins by mechanisms that are unrelated to phosphorylation events. Daidzein (7,4'-dihydroxy-isoflavone) typically exhibits modest effects, whereas genistin (7-O-glucosyl-genistein) usually exhibits no effect on ion-channel activities. Genistein appears to modulate gramicidin A ion channels by alteration of bilayer mechanical properties, but the associated molecular interactions have not been defined. The incorporation of daidzein into phosphatidylcholine liposomes promotes aggregation and precipitate formation which is problematic for structural studies based on NMR spectroscopy. In the present study, daidzein was incorporated into sodium dodecyl sulfate (SDS) micelles to provide a stable system with no evidence of micelle aggregation. For this reason genistein, daidzein, genistin, and osajin (a diprenyl-genistein derivative) were incorporated into SDS micelles (in D(2)O) to evaluate differences in position and orientation within micelle structures. The (1)H NMR line widths, as a function of Mn(2+) concentration, indicate that genistein is quite mobile and buried within the hydrophobic micelle core. Daidzein and genistin also are mobile but exhibit average positions near the micelle/aqueous interface, with polar groups oriented toward the aqueous compartment. These results demonstrate that daidzein, with only two hydroxyl substituents, has a greater affinity for a polar environment than genistein with three hydroxyl substituents. The 5-hydroxyl group of genistein forms an intramolecular hydrogen bond with the 4-carbonyl group, which diminishes the molecular affinity for a polar matrix. These results suggest an explanation for the relative abilities of these compounds to increase gramicidin channel lifetimes and modulate other ion-channel types.     

珠芽蓼黄酮类化合物清除DPPH·的作用

以六盘水市本地野生的珠芽蓼为原料,利用70%乙醇作为提取介质提取黄酮类化合物,并以抗坏血酸(VC)和维生素E(VE)为对照物,采用DPPH法研究珠芽蓼黄酮提取物对二苯代苦味肼基自由基(DPPH.)的清除作用。结果表明:珠芽蓼黄酮对DPPH.有较强的清除作用,在其质量浓度为368.94μg/mL时,其清除效果最好,清除率达88.96%,显著高于相同浓度下的VC和VE的清除率。珠芽蓼黄酮提取物是一种有前途的抗氧化剂。     

DFT Study on the Antioxidant Activity of a Modeled p-Terphenyl Derivative

Relationships between the structure characteristics of natural p-terphenyl com- pounds isolated from three edible mushrooms (Thelephora ganbajun, Thelephora aeronautical, and Boletopsis grisea) indigenous to China and their mechanism of antioxidant activity were studied. Geometry structures of terphenyl molecule and four corresponding radicals, bond dissociation energy (BDE), frontier orbitals (HOMO and LUMO) and single electron density were calculated using DFT methods (B3LYP/6-311G**). The computational results which are consistent with the experimental data well show that terphenyl molecule scavenges DPPH radical by hydrogen abstract mechanism and the high antioxidant activity depends on the substitution position of hydroxyls. Two active 7-, 8-hydroxyls facilitate the hydrogen abstraction due to the intramolecular hydrogen bond and the resonance effect makes 4-hydroxyl radical more stable.     

An HPLC assay of hydroxyl radicals by the hydroxylation reaction of terephthalic acid

An HPLC assay for hydroxyl radicals is described. The hydroxyl radical was trapped by terephthalic acid (non-fluorescent), and 2-hydroxyl terephthalic acid (fluorescent) was quantitated by HPLC-fluorescence detection. At a terephthalic acid concentration of 4.25 mmol/L, the hydroxyl radical formed in the Fenton reaction was successfully assayed in the concentration range of hydrogen peroxide of 2.5-50 micro mol/L, where the concentration of Fe(II) was 50 micro mol/L. The fluorescence of 2-hydroxy terephthalate was stable at 24 h, and its detection limit by this method was 5 nmol/L (100 fmol).     

明日叶黄酮类化合物清除羟基自由基活性研究

为了研究明日叶黄酮类化合物对羟基自由基的清除作用,以明日叶（主要取叶片）为原料,用体积分数为65％乙醇提取明日叶总黄酮,测定其总黄酮含量.通过Fenton反应体系产生羟基自由基,利用明日叶提取液中的功能成分黄酮类化合物对羟基自由基的清除作用进行研究.结果表明：明日叶提取物总黄酮质量分数为10.18％,且黄酮类化合物对羟基自由基有较强清除效力,当提取物总黄酮浓度在0.1～1.0 mg/mL范围内,其与清除率呈正相关.明日叶中黄酮类化合物对羟基自由基有较强清除效力,作为天然抗氧化产品开发具有一定价值.