激发子对桦褐孔菌多酚合成的诱导及其生化机制初探

旨在研究真菌激发子对桦褐孔菌多酚合成的影响,采用液体摇瓶培养方式,将真菌激发子加入到桦褐孔菌液体培养物中,检测桦褐孔菌次级代谢产物的积累,以及真菌激发子对桦褐孔菌一氧化氮合酶(NOS)活性的影响。结果表明,适量添加真菌激发子能够提高桦褐孔菌的代谢速率,提高多酚类化合物的合成,胞内和胞外多酚最高可达102.15 mg/L和311.91 mg/L,并能显著提高桦褐孔菌NOS的活性,其活性最高可达151.93 U/mg prot,发酵液一氧化氮(NO)含量最高可达256.28μmol/L。这表明,真菌激发子能够有效激活桦褐孔菌的次级代谢产物合成途径。     

5-氮杂胞苷对桦褐孔菌多酚积累的影响

本文旨在研究DNA甲基转移酶抑制剂5-氮杂胞苷对桦褐孔菌多酚合成的调控。以液体摇瓶法培养桦褐孔菌,并在培养液中添加5-氮杂胞苷。采用荧光定量PCR测定与多酚合成相关的编码苯丙氨酸解氨酶（pal）、4-香豆酸辅酶A连接酶（4cl）和硬毛素合成酶（sps）基因表达水平,染色质免疫沉淀技术对编码硬毛素合成酶基因启动子区的组蛋白甲基化修饰进行检测,Folin-Ciocalteu法测定桦褐孔菌细胞内和发酵液中多酚的含量。结果显示,5-氮杂胞苷的添加提高了桦褐孔菌体内pal、4cl和sps基因的表达水平,改变了sps启动子区的组蛋白甲基化修饰,即降低了H3K9三甲基化修饰水平,提高了H3K4和H3K36三甲基化修饰水平,显著提高了桦褐孔菌细胞内和发酵液中多酚的积累量。5-氮杂胞苷诱导下桦褐孔菌细胞内多酚积累量达(46.6±2.8)mg/g,明显高于对照组多酚积累量(28.7±1.0)mg/g,并且胞外多酚的含量由对照组的(66.9±1.3)mg/L提高至(92.3±2.3)mg/L。此外,经5-氮杂胞苷处理后胞内多酚清除DPPH自由基、超氧阴离子和羟自由基的能力显著提高。可见,5-氮杂胞苷可以作为调节因子激发桦褐孔菌液体培养条件下多酚的合成,可以成为进一步提高桦褐孔菌液体发酵产物中多酚产量的技术手段之一。     

外源因子对桦褐孔菌发酵产桦褐孔菌醇的影响

食药用真菌因其丰富的天然活性物质成为具有开发潜力的药物来源。桦褐孔菌Inonotus obliquus作为一种珍稀的药用真菌,因其对糖尿病、消化系统疾病、心血管疾病、肝病和癌症等疾病有良好的治疗效果而受到广泛关注。桦褐孔菌醇（inotodiol）是桦褐孔菌特有的一种羊毛甾烷型三萜类化合物,具有多种抗癌活性。本文的主要目的是研究外源因子的添加对桦褐孔菌液态发酵产桦褐孔菌醇的影响,以及对桦褐孔菌醇合成途径中酶活的影响。结果表明：最佳外源因子是香叶醇,最佳添加浓度和添加时间分别为0.02%（V/V）和第144小时。发酵结束时（240h）桦褐孔菌醇的产量为27.89mg/L是对照组（9.23mg/L）的3.02倍。通过对比添加香叶醇后桦褐孔菌醇的产量变化以及合成途径中4种酶（法尼基焦磷酸合酶、角鲨烯合酶、角鲨烯环氧化酶和羊毛甾醇合酶）的活性变化,对香叶醇的作用机制进行了初步探究。研究结果表明添加香叶醇后,4种酶活性均较对照组有显著的提高,与此对应的桦褐孔菌醇产量也显著增加,说明这4种酶在桦褐孔菌醇合成途径中起到了积极的作用。     

一氧化氮对桦褐孔菌抗氧化酚类化合物积累的影响

本研究探讨了NO对深层培养的桦褐孔菌积累抗氧化酚类化合物的影响。在桦褐孔菌的培养基中分别加入0.01mmol/L、0.1mmol/L以及1mmol/L的NO供体硝普钠,并测定总酚的含量及其抗氧化活性。发酵产物的抗氧化活性以清除DPPH和羟自由基活力表示。加入0.1mmol/L的硝普钠可使桦褐孔菌胞内外酚类化合物分别达到最高水平67mg/g和677mg/L。不同培养时期产生的胞内外酚类化合物都具有抗氧化活性,尤其是添加0.1mmol/L硝普钠的菌丝体。因此NO可用于上调深层发酵培养的桦褐孔菌酚类化合物的积累。     

Folin-Ciocalteu比色法测定桦褐孔菌多酚的条件优化

以没食子酸为标准品,通过正交试验和单因素实验研究了Folin-Ciocalteu 比色法测定桦褐孔菌中多酚含量的适宜条件。结果表明,优化后的显色条件为Folin-Ciocalteu试剂用量0.3mL、10% Na2CO3溶液0.6mL,25℃时避光反应30min,于750nm处测定其吸光值。多酚质量浓度在0.0032－0.0256mg/mL范围内与吸光值有良好的线性关系。根据拟合的线性回归方程对桦褐孔菌多酚进行定量测定,野生桦褐孔菌和人工培养桦褐孔菌中多酚含量最高分别为（72.05±0.08）mg/g、（52.76±0.06）mg/g（n=6）。不同加标水平的加标回收率测定实验获得的平均回收率为98.95%,RSD为1.27%。该法测定桦褐孔菌多酚具有快速、准确,稳定性强,重现性好,精密度高的特点,可应用于实际样品的测定。     

诱抗菌激发子诱导黄瓜产生对炭疽病的抗性

用细胞壁提取法从诱抗菌中提取出激发子,经点滴法测定发现该激发子与活菌一样能诱导黄瓜产生对炭疽病的抗性反应。黄瓜经激发子处理后,体内与抗病反应有关的过氧化物酶、多酚氧化酶和苯丙氨酸解氨酶活性显著增强;过氧化物酶同功酶酶带增多,着色加深;酚类物质和木质素含量也明显提高。     

诱抗菌激发子诱导黄瓜产生对炭疽病的抗性

用细胞壁提取法从诱抗菌中提取出激发子,经点滴法测定发现该激发子与活菌一样能诱导黄瓜产生对炭疽病的抗性反应。黄瓜经激发子处理后,体内与抗病反应有关的过氧化物酶、多酚氧化酶和苯丙氨酸解氨酶活性显著增强;过氧化物酶同功酶酶带增多,着色加深;酚类物质和木质素含量也明显提高。     

氨基酸和霉菌水提物对深层发酵桦褐孔菌菌丝体黄酮积累及其抗氧化活性的影响

黄酮类化合物是桦褐孔菌菌丝体中多酚类化合物的重要组成部分,也是该菌治疗众多疾病的有效成分之一。然而人工培养桦褐孔菌黄酮等酚类化合物积累甚少,导致药理活性的明显下降。为此,我们研究了3种氨基酸和4种霉菌水提物对深层发酵桦褐孔菌黄酮的积累及其抗氧化能力的影响。在所试验的3种氨基酸和4种霉菌水提物中,L-酪氨酸,黄曲霉和毛霉水提物能有效地增加该菌黄酮的积累。人工培养菌体中的黄酮至少由4种黄酮苷组成,苷元分别是槲皮素、柚皮素、山奈酚和异鼠李素。深层发酵菌丝体具有一定的抗氧化能力,并与总黄酮的含量呈正相关。由L-酪氨酸,黄曲霉和毛霉水提物调控生长的桦褐孔菌菌丝体,能有效地清除超氧阴离子、羟基自由基和DPPH自由基。     

桦褐孔菌三萜类物质的提取与含量测定

以桦褐孔菌发酵菌丝体为材料,通过对溶剂乙醇（95%）、甲醇、乙酸乙酯、丙酮、异丙醇、正己烷和氯仿的提取效果比较表明,提取三萜类化合物的最佳溶剂为异丙醇,提取时间为24h,每个样品所需溶剂量（6mL）和菌丝体样品量（100mg）较少,并可同时对大量样品进行有效提取。以白桦脂醇为标准品,对香草醛-冰醋酸-高氯酸分光光度法进行评价,证明该方法简单快速、准确度高、试验误差小、重复性好。利用此方法对桦褐孔菌的野生菌核和发酵菌丝体内三萜类化合物含量进行测定,结果表明野生菌核（59.86mg/g）和发酵菌丝体（94.92mg/g）中都含有很高的三萜类化合物,且发酵菌丝体中三萜类化合物含量高于野生菌核。因此在桦褐孔菌产品开发中,发酵菌丝体可代替野生菌核进行大工业化生产。     

桦褐孔菌三萜类物质的提取与含量测定

以桦褐孔菌发酵菌丝体为材料,通过对溶剂乙醇(95%)、甲醇、乙酸乙酯、丙酮、异丙醇、正己烷和氯仿的提取效果比较表明,提取三萜类化合物的最佳溶剂为异丙醇,提取时间为24h,每个样品所需溶剂量(6mL)和菌丝体样品量(100mg)较少,并可同时对大量样品进行有效提取。以白桦脂醇为标准品,对香草醛-冰醋酸-高氯酸分光光度法进行评价,证明该方法简单快速、准确度高、试验误差小、重复性好。利用此方法对桦褐孔菌的野生菌核和发酵菌丝体内三萜类化合物含量进行测定,结果表明野生菌核(59.86mg/g)和发酵菌丝体(94.92mg/g)中都含有很高的三萜类化合物,且发酵菌丝体中三萜类化合物含量高于野生菌核。因此在桦褐孔菌产品开发中,发酵菌丝体可代替野生菌核进行大工业化生产。     

NO对金丝桃悬浮细胞生长及金丝桃素生物合成的促进作用研究

一氧化氮 (NO)是近年来发现的一种新型植物信号分子。以硝普钠 (Sodiumnitroprusside ,SNP)为一氧化氮 (NO)的供体 ,研究外源NO对金丝桃悬浮细胞生长及金丝桃素生物合成的影响。试验结果表明 ,金丝桃悬浮细胞在含 0 5和 15 0mmol LSNP的培养基中培养 2 0d后 ,细胞的干重分别为对照组的 140%和50% ;细胞中金丝桃素的含量分别为对照组的 98%和210%。试验结果表明 ,低浓度SNP处理有利于金丝桃悬浮细胞生长 ,而高浓度SNP可以促进金丝桃素的合成。在细胞培养初期 (0d)加入 0.5mmol LSNP并在指数生长后期 (14d)加入15.0mmol LSNP的金丝桃悬浮细胞在培养 2.5d后 ,细胞的干重和金丝桃素的含量分别为对照组的1.4和1.8倍 ,金丝桃素的产量达15.2mg/L ,比对照高3.2倍。SNP对金丝桃悬浮细胞生长及金丝桃素含量的影响可以被NO专一性淬灭剂CPITO(2-4-carboxyphenyl-4 ,4 ,5 ,5-tetramethylimidazoline-1-oxyl-3-oxide)所抑制,说明SNP是通过其分解产物NO影响细胞生长和金丝桃素的合成。试验结果同时表明,在15.0mmol/L的SNP处理下,金丝桃悬浮细胞中的苯丙氨酸解氨酶(PAL)的活性显著升高,推测NO可能通过触发金丝桃悬浮细胞的防卫反应,激活了细胞中金丝桃素的生物合成途径。     

一氧化氮与激发子诱导的植物抗病防卫反应

来源于真菌或植物细胞壁的激发子可以诱导植物的抗性反应。一系列的信号分子,如一氧化氮、活性氧、茉莉酸、水杨酸、乙烯等都参与了激发子诱导的植物抗性反应。它们在介导激发子刺激诱发胞内抗性反应的过程中起着重要的作用。本文介绍了激发子的种类,并简述了激发了受体以及植物细胞对激发子刺激的感受与传递;重点介绍了一氧化氮在激发子诱导植物抗性反应过程中的作用,以及它与其他信号分子之间相互关系的研究进展。     

<Emphasis Type="Italic">In Vitro</Emphasis>, Melatonin Treatment Decreases Nitric Oxide Levels in Murine Splenocytes Cultured with the Venezuelan Equine Encephalomyelitis Virus

The purpose of this work was to determine the effect of melatonin on the nitric oxide levels in murine splenocytes cultured with the Venezuelan equine encephalomyelitis virus. After incubation, nitric oxide levels were measured by the diazotization assay. Those cultures with the Venezuelan equine encephalomyelitis virus increased nitric oxide levels. Splenocytes infected and treated with 100 and 150 μg/ml of melatonin, decreased significantly the nitric oxide levels when compared to infected and non-treated splenocytes. These findings show that splenocytes infected with the Venezuelan equine encephalomyelitis virus generate important amounts of nitric oxide and suggest that melatonin protects the mice infected with the Venezuelan equine encephalomyelitis virus by a mechanism involving the decreasing of nitric oxide concentrations in tissue.     

一氧化氮参与盐胁迫下长春花酚类代谢的调控研究

为研究外源一氧化氮(NO)调控盐胁迫下长春花中酚类化合物的响应,采用液相色谱—质谱联用(LCMS)技术靶向分析梯度浓度硝普纳(SNP)处理对盐胁迫下长春花幼苗根、茎、花、叶4个部位中酚类化合物组分及含量水平的变化。结果共鉴定出L-苯丙氨酸和18种酚类物质,C6C1类5种、C6C3类5种、C6C3C6类8种,其中原儿茶酸、绿原酸、槲皮素在长春花根、茎、花、叶4个部位中均存在;不同浓度SNP处理后长春花不同部位酚类化合物响应积累明显不同,其中C6C1和C6C3小分子酚酸类化合物主要积累在根和茎中,C3C6C3类主要富集在花和叶中;L-苯丙氨酸在茎、叶中相对含量较高,盐胁迫下茎中含量显著升高,且随外源NO浓度增大呈下降趋势。外源NO影响盐胁迫下植物器官中酚类化合物的积累和变化,其中根和茎响应敏感,从种类和相对含量的角度,茎和叶更适合检测酚类化合物。     

In vivo imaging of an elicitor-induced nitric oxide burst in tobacco

A growing body of evidence suggests that nitric oxide (NO), an important signalling and defence molecule in mammals, plays a key role in activating disease resistance in plants, acting as signalling molecule and possibly as direct anti-microbial agent. Recently, a novel fluorophore (diaminofluorescein diacetate, DAF-2 DA) has been developed which allows bio-imaging of NO in vivo. Here we use the cell-permeable DAF-2 DA, in conjunction with confocal laser scanning microscopy, for real-time imaging of NO in living plant cells. Epidermal tobacco cells treated with cryptogein, a fungal elicitor from Phytophthora cryptogea, respond to the elicitor with a strong increase of intracellular NO. NO-induced fluorescence was found in several cellular compartments, and could be inhibited by a NO scavenger and an inhibitor of nitric oxide synthase. The NO burst was triggered within minutes, reminiscent of the oxidative burst during hypersensitive response reactions. These results reveal additional similarities between plant and animal host responses to infection.     

Comparison of the inhibitory effect of isothiourea and mercapto-alkylguanidine derivatives on the alternative pathways of arginine metabolism in macrophages

Novel, non-arginine based compounds have been identified as potent inhibitors of nitric oxide synthase (NOS). Members of the isothiourea and mercapto-alkylguanidine classes have generated much interest, as some members of these classes show selectivity towards the inducible isoform of NOS (iNOS), which plays a role in inflammation and shock. Here we compared the effect of a number of these compounds as well as L-arginine based NOS inhibitor reference compounds on macrophage-derived and liver arginase and macrophage iNOS activities. From the nonarginine based NOS inhibitors studied only S-aminoethyl-isothiourea (AETU) caused a slight inhibition of arginase activity. This inhibition was kinetically competitive and due to the rearrangement of AETU to mercapto-ethylguanidine (MEG). The weak inhibitory effect of non-arginine based iNOS inhibitors on arginase activity further supports the view that such compounds may be of practical use for inhibition of NO production in cells simultaneously expressing iNOS and arginase.     

The Inhibitory Effects of Nω-Nitro-L-Arginine Methyl Ester on Nitric Oxide Synthase Activity Vary Among Brain Regions in Vivo but Not in Vitro

We studied the effects of intracerebroventricular and intraperitoneal injection and the in vitro effects of N-nitro-L-arginine methyl ester (L-NAME), an inhibitor of nitric oxide synthase, on the nitric oxide synthase activities of the cerebellum, brainstem, hypothalamus, hippocampus, and the remainder of the brain after dissections. Male rats were chronically implanted with lateral icv guide cannula. L-NAME was injected in doses of 0.2, 1, and 5 mg intracerebroventricularly, and 50 mg/kg intraperitoneally. L-NAME induced dose-dependent suppression of NOS activities in each brain region. The threshold dose was 0.2 mg; 1 mg L-NAME completely abolished brain nitric oxide synthase activity 90 min after the injection. Brain NOS activities returned to baseline level 48 h after the injection of 5 mg L-NAME. There were significant differences between the sensitivity of various regions to L-NAME after in vivo but not in vitro administration of the enzyme inhibitor. These findings indicate that intracerebroventricular injection of L-NAME is a useful tool for inhibiting brain nitric oxide synthase activities in vivo. The differences between the sensitivity of different brain regions to L-NAME as well as the relative fast recovery of nitric oxide synthase activities must be taken into account when L-NAME is administered intracerebroventricularly to rats.     

姜黄素对脂多糖激活的小胶质细胞iNOS 表达的抑制及抗氧化作用

用姜黄素预处理小胶质细胞株BV,1 h后加用脂多糖(200 ng/ml)进行刺激,通过MTT检测细胞活性;硝酸还原酶法检测细胞上清液中一氧化氮(NO)的含量;Western 印迹、免疫细胞化学染色检测细胞活化后形态及诱导型一氧化氮合酶(iNOS)蛋白的表达;瞬时转染和荧光素酶报告基因鉴定iNOS和NF-κB基因表达活性;SOD和GSH-Px检测姜黄素的抗氧化能力.结果证明,脂多糖可促使小胶质细胞活化,使iNOS和NF-κB基因表达活性显著增强;iNOS蛋白表达明显上调,NO释放增多;细胞内SOD和GSH-Px活性明显下降.而姜黄素(10 μmol/L)可以显著抑制活化后小胶质细胞NO的产生、iNOS蛋白的表达及iNOS-Luc、NF-κB-Luc的表达活性,其机制可能通过NF-κB的信号转导途径抑制iNOS的表达.姜黄素可通过提高细胞内SOD和GSH-Px的活性发挥抗氧化作用.