水飞蓟宾抑制人肺癌细胞浸润的作用机制研究

目的通过观察水飞蓟宾对有高转移能力的人肺癌细胞A549相关酶的作用来研究水飞蓟宾对浸润和运动性的影响。方法应用细胞活性测定、细胞浸润和运动性分析、细胞-基质黏附实验、逆转录聚合酶链反应等技术完成实验。结果A549细胞用高达100μM的不同浓度的水飞蓟宾处理一定时间后,行明胶酶谱、酪蛋白酶谱以及蛋白印迹分析来确定水飞蓟宾对金属蛋白酶-2（MMP-2）的影响。结论水飞蓟宾治疗可以浓度以及时间依存性方式减少MMP-2表达。半定量RT—PCR分析进一步表明,水飞蓟宾可在转录水平调节MMP-2表达。     

水飞蓟宾葡甲胺的结构与溶解性

本文以紫外分光光度法(UV)、差示扫描量热法(DSC)、液质联用(HPLC-ESI-MS)等方法分析合成的水飞蓟宾葡甲胺的结构,并测定了其在25 ℃水中的溶解度.结果表明,水飞蓟宾葡甲胺以盐的形式存在,有别于水飞蓟宾与葡甲胺的简单混合.水飞蓟宾葡甲胺在酸性流动相溶液中容易解离成水飞蓟宾与葡甲胺,水飞蓟宾的物理化学性质没有改变,因此,HPLC法分析水飞蓟宾葡甲胺有局限性,DSC法分析可以作为水飞蓟宾葡甲胺质量的参考依据.水飞蓟宾的溶解度为37.350 mg/L,水飞蓟宾葡甲胺的溶解度为7182.50 mg/L,水飞蓟宾葡甲胺明显改善了水飞蓟宾在水中的溶解性能.     

水飞蓟宾及其类似物的化学修饰研究进展

以天然黄酮类化合物为活性先导物,研究其化学结构与生物活性的关系,进而进行化学修饰研究,是目前创新药物的一条重要思路。药用植物水飞蓟用来治疗肝胆疾病已有2000多年的历史,水飞蓟宾作为水飞蓟素的主要活性成分具有保肝、抗炎和抗癌等活性而备受人们关注,但由于水飞蓟宾极低的溶解性极大地限制了其生物利用度。为此,国内外学者通过化学和物理等方法对其进行修饰和改造,并取得了一定的成果。本文就近10年来水飞蓟宾及其类似物的化学修饰研究进行综述。     

根皮素异烟酰基腙的合成、表征及抗氧化活性研究

本文旨在提高根皮素的生物活性,以其作为母体通过与异烟肼结合引入C=NNH活性基团,合成了一种新型酰腙类化合物。采用UV,IR,1H NMR,13C NMR及元素分析等手段对产物进行结构表征,并测定了根皮素及其异烟酰基腙的还原能力,清除DPPH自由基及清除ABTS自由基能力。结果表明根皮素异烟酰基腙的抗氧化活性显著优于根皮素。     

水飞蓟宾诱导肺腺癌Anip973 细胞凋亡的分子机制研究

目的:探讨水飞蓟宾诱导肺腺癌Anip973细胞系细胞凋亡的分子机制。方法:采用MTT法、倒置显微镜和电子显微镜等形态学检测以及流式细胞仪(FCM)技术检测、DNALadder分析、凋亡分子PARP的表达检测细胞凋亡,同时进行凋亡相关蛋白Bax、Bcl-2、caspase-3和caspase-9表达活性分析。结果:(1)水飞蓟宾对人肺腺癌Anip973细胞系细胞的增殖有显著抑制作用;(2)水飞蓟宾作用Anip973细胞48h后,随着浓度的增加,倒置显微镜下可见细胞数目减少,胞体变小、变圆,到高浓度时出现较多的死亡细胞;(3)扫描电镜观察发现,随着水飞蓟宾作用浓度的增加,Anip973细胞中出现增多的凋亡细胞,凋亡细胞表现出典型的超微结构特征;(4)流式细胞仪检测的结果发现,随着药物作用时间的延长,Anip973细胞的G1期细胞比例增多,S期细胞明显减少,G2期细胞略有减少,并出现明显的凋亡峰。(5)水飞蓟宾作用后的Anip973细胞出现明显的DNALadder和PARP降解增加等凋亡特征;(6)水飞蓟宾作用后,Anip973细胞中的凋亡相关蛋白Bax表达增加、caspase-3和caspase-9酶活性增加,而Bcl-2表达降低。结论:水飞蓟宾在体外有抑制人肺腺癌细胞Anip973的增殖作用,并通过激活线粒体依赖的caspase凋亡通路,诱导其凋亡。     

水飞蓟宾诱导肺腺癌Anip973细胞凋亡的分子机制研究

目的：探讨水飞蓟宾诱导肺腺癌Anip973细胞系细胞凋亡的分子机制。方法：采用MTT法、倒置显微镜和电子显微镜等形态学检测以及流式细胞仪（FCM）技术检测、DNALadder分析、凋亡分子PARP的表达检测细胞凋亡,同时进行凋亡相关蛋白Bax、Bcl-2、caspase-3和caspase-9表达活性分析。结果：（1）水飞蓟宾对人肺腺癌Anip973细胞系细胞的增殖有显著抑制作用;（2）水飞蓟宾作用Anip973细胞48h后,随着浓度的增加,倒置显微镜下可见细胞数目减少,胞体变小、变圆,到高浓度时出现较多的死亡细胞;（3）扫描电镜观察发现,随着水飞蓟宾作用浓度的增加,Anip973细胞中出现增多的凋亡细胞,凋亡细胞表现出典型的超微结构特征;（4）流式细胞仪检测的结果发现,随着药物作用时间的延长,Anip973细胞的G1期细胞比例增多,S期细胞明显减少,G2期细胞略有减少,并出现明显的凋亡峰。（5）水飞蓟宾作用后的Anip973细胞出现明显的DNALadder和PARP降解增加等凋亡特征;（6）水飞蓟宾作用后,Anip973细胞中的凋亡相关蛋白Bax表达增加、caspase-3和caspase-9酶活性增加,而Bcl-2表达降低。结论：水飞蓟宾在体外有抑制人肺腺癌细胞Anip973的增殖作用,并通过激活线粒体依赖的caspase凋亡通路,诱导其凋亡。     

姜黄素类似物的合成及体外抗氧化活性研究

利用不同的芳香醛和乙酰丙酮缩合反应,合成了4种姜黄素类似物(A1～A4),化合物的结构经IR1、HNMR及MS等测试技术表征确证。采用邻苯三酚法研究化合物的体外抗氧化活性,台盼蓝细胞计数法研究体外抗肿瘤活性。结果表明,化合物A1、A2、A3的抗氧化活性和对K562细胞增殖的抑制活性均高于姜黄素,其活性与酚羟基密切相关。     

植物肌醇半乳糖苷合酶的生理功能和调控机制

植物肌醇半乳糖苷合酶（galactinol synthase, GolS）是高等植物棉子糖类寡糖合成途径中的关键酶,为棉子糖系列寡糖提供活化的半乳糖基,调控植物体内棉子糖（raffinose, RFO）系列寡糖的生物合成与积累。编码该酶的基因属于糖基转移酶（glycosyltransferases, GTs）GT8基因家族的亚家族。GolS参与合成的最终产物棉子糖家族低聚糖（raffinose family oligosaccharides,RFOs）是植物中重要的碳水化合物存在形式,在细胞内可溶性强,可作为脱水保护剂;还能发挥稳定膜结构的作用。同时,GolS催化合成的直接产物肌醇半乳糖苷（galactinol）和RFOs都能作为羟基自由基捕获分子参与活性氧的清除。因此,GolS参与的代谢途径在植物碳同化物的贮存与运输、生物和非生物逆境响应、种子的脱水效应等生命过程中均发挥了重要作用。GolS基因结构差异与表达模式不同,导致不同GolS基因参与的生物学功能具有很大的差异。研究植物中不同GolS基因的结构特征,组织特异性表达特性及它们响应不同生长发育阶段、环境变化的表达特性,对了解GolS参与的生物学功能具有重要意义。同时,在分子生物学水平上,深入了解调控植物GolS基因的分子调控机制,为通过遗传工程或分子辅助育种等手段,利用GolS改良农林作物的经济性状提供理论支持。本文针对近年来植物中GolS基因的生理功能和调控机制的研究进行了综述。     

植物肌醇半乳糖苷合酶的生理功能和调控机制

植物肌醇半乳糖苷合酶（galactinol synthase, GolS）是高等植物棉子糖类寡糖合成途径中的关键酶,为棉子糖系列寡糖提供活化的半乳糖基,调控植物体内棉子糖（raffinose, RFO）系列寡糖的生物合成与积累。编码该酶的基因属于糖基转移酶（glycosyltransferases, GTs）GT8基因家族的亚家族。GolS参与合成的最终产物棉子糖家族低聚糖（raffinose family oligosaccharides,RFOs）是植物中重要的碳水化合物存在形式,在细胞内可溶性强,可作为脱水保护剂;还能发挥稳定膜结构的作用。同时,GolS催化合成的直接产物肌醇半乳糖苷（galactinol）和RFOs都能作为羟基自由基捕获分子参与活性氧的清除。因此,GolS参与的代谢途径在植物碳同化物的贮存与运输、生物和非生物逆境响应、种子的脱水效应等生命过程中均发挥了重要作用。GolS基因结构差异与表达模式不同,导致不同GolS基因参与的生物学功能具有很大的差异。研究植物中不同GolS基因的结构特征,组织特异性表达特性及它们响应不同生长发育阶段、环境变化的表达特性,对了解GolS参与的生物学功能具有重要意义。同时,在分子生物学水平上,深入了解调控植物GolS基因的分子调控机制,为通过遗传工程或分子辅助育种等手段,利用GolS改良农林作物的经济性状提供理论支持。本文针对近年来植物中GolS基因的生理功能和调控机制的研究进行了综述。     

鹰嘴豆芽素A糖苷类衍生物的合成及其结构表征

为了改善鹰嘴豆芽素A代谢稳定性,提高其生物利用度,本文以乙酰溴代糖和鹰嘴豆芽素A为原料,采用相转移催化法在鹰嘴豆芽素A 7位羟基处引入糖苷,合成12个鹰嘴豆芽素A糖苷类衍生物,方法简单,条件温和,产率较高。产物结构通过1H NMR、13C NMR、IR和ESI-MS分析确认,为进一步对其进行生物活性研究奠定了基础。     

Synthesis,Antimicrobial and Antioxidant Activity of Pyrazole Based Sulfonamide Derivatives

A series of new sulfonamides have been synthesized from Ampyrone with different benzene sulfonyl chlorides to yield the N-1,5-dimethyl-3-oxo-2-phenyl-2,3-dihydro-1H-pyrazol-4-yl) benzenesulfonamides (4a–e). All synthesized compounds were characterized on the basis of FTIR, ¹H NMR, and ¹³C NMR, and also by the aid of mass spectral data. Further, all synthesized compounds have studied for their in vitro antimicrobial activities against selected bacterial as well as fungal strains by the agar well diffusion method. Free radical scavenging activity has been investigated by using DPPH method. Among all the synthesized compounds, 4b, 4d, and 4e exhibited significant antimicrobial and antioxidant activities.     

Synthesis and Antioxidant Activity of New Sulfur-Containing Derivatives of Isobornylphenols

Russian Journal of Bioorganic Chemistry - New derivatives of isobornylphenols containing a sulfur atom in the para-position in various functional groups have been synthesized. The evaluation of...     

Synthesis and Antioxidant Properties of Psoralen Derivatives

Five psoralen derivatives were synthesized and the structures of them were characterized by ¹H-NMR, ¹³C-NMR, and IR. The antioxidant properties of the compounds were tested by inhibiting the free radical-initiated DNA oxidation and scavenging the radical reaction. The results showed that the effective stoichiometric factors (n) of the compounds V and IV could reach 2.00 and 2.11 in the system of inhibiting the DNA oxidation reaction initiated by 2,2′-Azobis(2-methylpropionamidine) dihydrochloride (AAPH). In the inhibition of ⋅OH-oxidation of the DNA system, compounds I ~ V showed antioxidant properties. The thiobarbituric acid absorbance (TBARS) percentages of compounds IV and V were 76.19 % and 78.84 %. Compounds I ~ V could also inhibit Cu²⁺/GSH-oxidation of DNA, and all compounds exhibited good antioxidant properties except compound II (94.00 %). All the five compounds were able to trap diammonium 2,2′-azinobis(3-ethylbenzothiazoline-6-sulfonate) salt radical (ABTS⁺⋅), 2,2-diphenyl-1-picrylhydrazyl radical (DPPH⋅) and 2,6-di-tert-butyl-alpha-(3,5-di-tert-butyl-4-oxo-2,5-cyclohexadien-p-tolylox radical (galvinoxyl⋅). The ability of compounds I ~ V to scavenge those free radicals can be measured by the k values. The k values ranged from 0.07 to 0.82 in scavenging ABTS⁺⋅, galvinoxyl, and DPPH radicals, respectively.     

Design,Synthesis, and Biological Activity of Guaiazulene Derivatives

Guaiazulene and related derivatives were famous for diverse biological activities. In an effort to discover new highly efficient candidate drugs derived from guaiazulene, four series of guaiazulene derivatives were designed, synthesized, and evaluated for antiproliferation, antiviral, anti-inflammatory and peroxisome proliferators-activated receptor γ (PPARγ) signalling pathway agonist activities. Among them, two guaiazulene condensation derivatives showed selective cytotoxic activities towards K562 cell with IC₅₀ values 5.21 μM and 5.14 μM, respectively, accompanied by slight effects on normal cell viability. For the first time, one guaiazulene derivative from series I exhibited potent antiviral activity towards influenza A virus with IC₅₀ of 17.5 μM. A guaiazulene-based chalcone showed higher anti-inflammatory activity than positive drug indomethacin with an inhibitory rate of 34.29 % in zebrafish model in vivo. One guaiazulene-based flavonoid could strongly agitate PPARγ pathway at 20 μM, indicating the potential of guaiazulene derivatives to reduce obesity development and ameliorate hepatic steatosis. Preliminary in silico ADME studies predicted the excellent drug-likeness properties of bioactive guaiazulene derivatives.     

低聚壳聚糖衍生物的制备及其抗氧化性能

低聚壳聚糖(COS)经化学改性得到N-苯亚甲基壳聚糖(NBCOS)和O-2'-羟丙基三甲基氯化铵壳聚糖(OHCOS),对其结构进行表征.考察了COS及其衍生物对超氧阴离子O2¨、羟基自由基·OH、DPPH自由基的清除活性以及还原能力.结果表明:当浓度为10 mg/mL时,COS和OHCOS对O2¨的清除率分别为89.6%和85.5%,而同样浓度时NBCOS的清除率仅有6.9%;它们清除·OH和DPPH的活性大小顺序为COS>OHCOS>NBCOS,而还原能力大小顺序为COS>NBCOS>OHCOS.     

异黄酮衍生物的设计、合成与抗肿瘤活性

为了提高大豆苷元的生物利用度以改善其抗肿瘤活性,利用前药原理对大豆苷元进行修饰。本文根据前药原理成功设计合成了5个新型大豆苷元磺酸酯衍生物（3～7）,所有化合物的结构均经IR、MS、元素分析和。HNMR确证。体外细胞初步活性筛选试验结果表明,部分标题化合物也具有一定的抗肿瘤活性。     

Design,Synthesis and Anti-HIV Activity of Homologous PMEA Derivatives

This article describes an efficient route for synthesizing novel cyclopropyl homologous PMEA analogues. The condensation of the bromide 8 with nucleosidic bases (A, U, T, C, 5-FU, G) under standard nucleophilic substitution and deprotection conditions, afforded the target phosphonic acid analogues 14～18 and 21. These compounds were evaluated for their potential antiviral properties against various viruses. Guanine derivative 21 showed significant antiviral activity.     

Synthesis and Cytotoxic Activity of Thiazolofluorenone Derivatives

The synthesis and biological evaluation of some novel thiazolofluorenones, thiazolofluorenes and thiazoloanthraquinones, substituted with amino side-chains are described. These polyheterocyclic compounds have been synthesized via the corresponding imino-1,2,3-dithiazoles. Their cytotoxic activity and their eventual selective effect on a phase of the cell cycle were evaluated in vitro, using the murine lymphocytic L1210 leukaemia cell line.     

Synthesis and Antifungal Activity of Curcumol Derivatives

To discover novel and effective antifungal candidates, a series of new curcumol derivatives were designed, synthesized, and evaluated their antifungal activity against five phytopathogenic fungi by the mycelium growth rate method. Derivatives c4 , c22 and c23 exhibited excellent antifungal activity against Phomopsis sp. with EC₅₀ values of 3.06, 3.07, and 3.16 μM, respectively. Specifically, compound c4 exhibited the strongest antifungal activity against Phomopsis sp., which was 44 times that of pyrimethanil (EC₅₀=134.37 μM). The results of scanning electron microscopy (SEM) and transmission electron microscopy (TEM) indicated that compound c4 could cause cell senescence and death of Phomopsis sp. by changing the normal hyphal morphology and disrupting the normal metabolism of hyphal cells. Moreover, compound c4 showed excellent curative effect against Phomopsis sp. on kiwifruit. These findings confirmed that compound c4 has great potential as a potent antifungal agent.