3′-Daidzein sulfonate sodium protects against memory impairment and hippocampal damage caused by chronic cerebral hypoperfusion

3′-Daidzein sulfonate sodium（DSS） is a new synthetic water-soluble compound derived from daidzein,a soya isoflavone that plays regulatory roles in neurobiology.In this study,we hypothesized that the regulatory role of DSS in neurobiology exhibits therapeutic effects on hippocampal damage and memory impairment.To validate this hypothesis,we established rat models of chronic cerebral hypoperfusion（CCH） by the permanent occlusion of the common carotid arteries using the two-vessel occlusion method.Three weeks after modeling,rat models were intragastrically administered 0.1,0.2,and 0.4 mg/kg DSS,once a day,for 5 successive weeks.The Morris water maze test was performed to investigate CCH-induced learning and memory deficits.TUNEL assay was used to analyze apoptosis in the hippocampal CA1,CA3 regions and dentate gyrus.Hematoxylin-eosin staining was performed to observe the morphology of neurons in the hippocampal CA1,CA3 regions and dentate gyrus.Western blot analysis was performed to investigate the phosphorylation of PKA,ERK1/2 and CREB in the hippocampal PKA/ERK1/2/CREB signaling pathway.Results showed that DSS treatment greatly improved the learning and memory deficits of rats with CCH,reduced apoptosis of neurons in the hippocampal CA1,CA3 regions and dentate gyrus,and increased the phosphorylation of PKA,ERK1/2,and CREB in the hippocampus.These findings suggest that DSS protects against CCH-induced memory impairment and hippocampal damage possibly through activating the PKA/ERK1/2/CREB signaling pathway.

Protective effects of 3′-daidzein sulfonate sodium on chronic hepatic injury by regulating the T lymphocyte subsets in mice

OBJECTIVE To explore the protective effects of 3′-daidzein sulfonate sodium on chronic hepatic injury induced by carbon tetrachloride(CCl4)in mice and investigate the mechanism about regulating the T lymphocyte subsets.METHODS Healthy Kunming male mice were randomly divided in 5groups:control group,model group,bifendate positive control group(2.5mg·kg-1),low and high dose 3′-daidzein sulfonate sodium groups(0.1and 0.3mg·kg-1).The chronic hepatic injury mice were made by intraperitoneal injection of 10% CCl4 plant oil solution twice a week,and sustained for six weeks.At the same time,the mice were treated with normal saline,bifendate(2.5mg·kg-1)and 3′-daidzein sulfonate sodium(0.1and 0.3mg·kg-1),respectively by ig administration once a day and continued for six weeks.After the last administration,the mice blood and liver were taken.Using automatic biochemical analyzer survey the activity of aspartate aminotransferase(AST)and alanine aminotransferase(ALT)in serum.Flow cytometry was used to detect T lymphocyte subsets,enzymes analysis technique was used to observe the liver function(CD3+,CD4+and CD8+),HemateinEosin stain was used to explore the changes in liver morphology.RESULTS The level of ALT and AST in the serum in model group mice increased significantly.While the level of ALT and AST in the serum in 3′-daidzein sulfonate sodium(0.1 or 0.3mg·kg-1,ig)groups mice decreased compared with the model group(P<0.05).And compared with the model group,the ratios of CD3+,CD4-CD8-and CD4+/CD8+ decreased,and the ratios of CD8+ increased in 3′-daidzein sulfonate sodium groups(0.1 and 0.3mg·kg-1,ig;P<0.05).CONCLUSION 3′-daidzein sulfonate sodium have a protective effect on CCl4-induced liver injury mice,and it can result in the changes of T lymphocyte subsets,which may be one of the factors leading to hepatic injury by CCl4.

3′-Daidzein sulfonate sodium improves mitochondrial functions after cerebral ischemia/reperfusion injury

3′-Daidzein sulfonate sodium is a new synthetic water-soluble compound derived from daidzein（an active ingredient of the kudzu vine root）. It has been shown to have a protective effect on cerebral ischemia/reperfusion injury in rats. We plan to study the mechanism of its protective effect. 3′-Daidzein sulfonate sodium was injected in rats after cerebral ischemia/reperfusion injury. Results showed that 3′-daidzein sulfonate sodium significantly reduced mitochondrial swelling, significantly elevated the mitochondrial membrane potential, increased mitochondrial superoxide dismutase and glutathione peroxidase activities, and decreased mitochondrial malondialdehyde levels. 3′-Daidzein sulfonate sodium improved the structural integrity of the blood-brain barrier and reduced blood-brain barrier permeability. These findings confirmed that 3′-daidzein sulfonate sodium has a protective effect on mitochondrial functions after cerebral ischemia/reperfusion injury, improves brain energy metabolism, and provides protection against blood-brain barrier damage.

Systematic pharmacology analysis of Sodium 8-(((carboxymethyl)amino)methyl)-4',7-bishydroxy-isoflavone-3'-sulfonate

The purpose of this study is to use the newly synthesized molecule Sodium 8-(((carboxymethyl)amino)methyl)-4',7-bishydroxy-isoflavone-3'-sulfonate(M)as a research object,the pharmacological mechanism of the molecule was analyzed by using a series of Systematic pharmacology methods.The results show that the M molecule has a higher drug-like DL value of 0.59 and better molecular property parameters,namely Hdon=4,Hacc=10 and AlogP=0.94;A total of 11 M molecules related targets,namely F2,ESR1,AR,F10,CA2,DPP4,CCNA2,PRSS1,CDK2,GSK3B and PTPN1;A total of 140 diseases are associated with M molecule targets,and these diseases are mainly related to cancer and cardiovascular diseases;A total of 52 pathways involve the pharmacological mechanisms of M molecules,which are mainly related to cancer and other related diseases;GO-enriched analysis showed that these targets are closely related to the regulation of peptidase activity and biological processes such as blood coagulation and hemostasis.This article clearly demonstrated the pharmacological mechanism of M molecule,which provides references for exploring the pharmacological mechanism of new compounds.

Synthesis of Sodium 2-[4(S)-4-Amido-3-oxo-2-isoxazolidinyl]-5-oxo-2-tetrahydrofurancarboxylate and Its Antibacterial Activities

Lactivicin,a novel inhibitor of bacterial cell wall synthesis,was isolated from the culture fil-trates of microorganism YK-258 and YK-422.It exhibits biological activities similar to those ofthe β-lactam antibiotics,although it does not have a β-lactam ring in its molecule.Since the discovery of lactivicin,hundreds of its derivatives have been synthesized.

3'-大豆苷元磺酸钠对豚鼠离体右心房自律性及收缩特性的影响

目的研究3'-大豆苷元磺酸钠对豚鼠离体右心房自律性及收缩特性的影响,并探讨其作用机制。方法采用豚鼠离体右心房测定3'-大豆苷元磺酸钠对其自律性、收缩幅度、收缩速度、舒张速度的影响。结果3'-大豆苷元磺酸钠可降低豚鼠离体右心房的自律性,明显降低豚鼠离体右心房的收缩幅度、收缩速度、舒张速度,且具有明显的剂量依赖性。结论3'-大豆苷元磺酸钠可抑制豚鼠离体右心房的自律性,明显降低豚鼠离体右心房的收缩幅度、收缩速度、舒张速度,且具有明显的剂量依赖性。其作用机制可能与阻断电压依赖性Ca2+通道及抑制肌浆网对Ca2+的释放有关。

3′-大豆甙元磺酸钠的电化学行为及应用研究

采用线性扫描伏安法、循环伏安法和常规脉冲伏安法电化学手段详细研究了改性药物 3′ 大豆甙元磺酸钠 ( 3′ daidzeinsulfonicsodium ,Dss)在pH 1 0～ 6 2的水溶液中的电化学行为 .在不同pH范围内得到了Dss的三个还原波 .研究证实 ,在pH <3 2条件下所获得的Pc1,Pc2 波分别为质子化的Dss的单电子不可逆吸附还原波及还原中间体自由基的单电子单质子不可逆吸附还原波 ;在 3 2 <pH <6 2条件下所获得的Pc3 波 ,属于Dss后随质子化的单电子不可逆吸附还原波 ,而还原中间体自由基的单电子波被氢波掩盖 .测得在单分子层饱和吸附的条件下 ,每一个Dss分子所占汞电极面积为 0 664nm2 .此外 ,通过邻苯三酚自氧化产生活性氧自由基再还原 ,对Dss清除活性氧自由基能力进行了研究 ,从电化学角度对其药理机制进行了探讨 ,研究证实Dss具有较强的抗氧化性 ,是一种有效的活性氧自由基清除剂 .

Crystal and Molecular Structure, and Spectral Characteristics of Sodium 3,5-Bis(Hydroxyimino)-1-Methyl-2,4,6-Trioxocyclohexanide

Sodium 3,5-bis(hydroxyimino)-1-methyl-2,4,6-trioxocyclohexanide C7H5N2NaO5 (I) has been isolated as the only product of the reaction of nitrosation of methylphloroglucinol. The structure of the titled compound has been determined from single crystal X-ray diffraction data. The hydrated C7H5N2NaO52.5H2O crystallizes in the monoclinic space group C2/c, with a(?) 16.408(3);b(?) 12.446(3);c(?) 13.716(3);(o) 126.34(3). The planar organic anion exists in a triketo-dihydroxyimino form with the C–O and C–N distances from 1.220(2) to 1.271(2)?? and from 1.292(2) to 1.293?? respectively. In the IR spectrum of I, the sharp absorption band occurred at 1681 cm-1 due to C=O stretching indicating the strong H-interactions. The correlations of theoretical (DFT-B3LYP/aug-cc-pVDZ) and experimental UV-vis absorption spectra in neutral and alkaline ethanolic solutions showed the existence of hydroxyimino-nitroso tautomerism while ionization of I.

3′-大豆苷元磺酸钠对心肌缺血/再灌注损伤及抗氧化作用的影响

目的利用离体心脏灌流模型,研究3′-大豆苷元磺酸钠对离体心脏缺血/再灌注损伤的保护作用,并探讨其抗氧化作用的机制。方法应用Langendorff离体心肌缺血/再灌注损伤模型,在灌流液中加入高、中、低剂量的3′-大豆苷元磺酸钠,测定再灌注过程中冠脉流量、左心室收缩压的变化;比色法测定心肌组织中LDH、SOD、GSH-Px的活性。结果3′-大豆苷元磺酸钠可使缺血/再灌注后心脏灌流量及左心室收缩压增大,使心肌组织中LDH、SOD、GSH-Px的活性升高。结论3′-大豆苷元磺酸钠对离体心脏缺血/再灌注损伤具有保护作用,其保护机制与其增强抗氧化作用有关。

3′-大豆苷元磺酸钠对大鼠脑缺血/再灌注损伤的保护与抗氧化作用的影响

目的:研究3′-大豆苷元磺酸钠对大鼠脑缺血/再灌注损伤的保护作用,并初步探讨其保护机制与抗氧化作用的关系。方法:大鼠大脑中动脉栓塞,制作局灶性脑缺血/再灌注损伤模型,缺血后10min,于舌下静脉给不同剂量的3′-大豆苷元磺酸钠。再灌注24h后,腹腔静脉取血并分离血清,断头取脑,一组前脑做TTC染色,测定脑梗死体积,另一组左脑制成10%的脑组织匀浆。比色法测血清及脑组织匀浆SOD、LDH的活性及MDA的含量。结果:与模型组相比,各剂量的3′-大豆苷元磺酸钠治疗组脑梗死体积减小;血清及脑组织SOD的活性显著升高、MDA含量均降低;血清LDH活性明显降低,组织LDH活性降低。结论:3′-大豆苷元磺酸钠对大鼠脑缺血/再灌注损伤具有一定的保护作用,其保护机制与3′-大豆苷元磺酸钠提高抗氧化作用、增强氧自由基的清除有关。

3'-大豆苷元磺酸钠抗实验性小鼠良性前列腺增生的作用观察

目的:研究3'-大豆苷元磺酸钠(DSS)对实验性小鼠BPH及性激素平衡的影响。方法:40只雄性小鼠随机分为5组:正常对照组、BPH模型组、前列康组(阳性对照)、20mg/(kg.d)DSS组及40mg/(kg.d)DSS组,每组8只。皮下注射丙酸睾酮建立小鼠BPH模型。正常对照组给予橄榄油0.1ml/只,前列康组给予前列康5g/(kg.d),DSS组给予DSS20mg、40mg/(kg.d)灌胃。观察每组处理12d后小鼠前列腺湿重、前列腺指数、前列腺组织形态学变化和性激素水平。结果:DSS治疗12d后,与模型组相比,DSS组小鼠前列腺湿重及前列腺指数出现剂量依赖性的降低(P(0.05或P(0.01),光镜下见增生的腺上皮乳头减少或消失,腺体上皮细胞呈低立方或扁平状;血清T、E2含量和T/E2比值明显降低(P(0.05或P(0.01),40mg/(kg.d)DSS组的结果与前列康组相似。结论:DSS对丙酸睾酮所致小鼠BPH具有显著的拮抗作用,其作用机制在一定程度上与降低小鼠血清T、E2含量及T/E2比值有关。

3'-大豆苷元磺酸钠对大鼠脑缺血/再灌注损伤的保护作用

目的研究3'-大豆苷元磺酸钠对大鼠脑缺血/再灌注损伤的保护作用,并初步探讨其保护机制。方法大鼠大脑中动脉栓塞,制作脑缺血再灌注损伤模型,缺血后10 min,于舌下静脉给予不同剂量的3'-大豆苷元磺酸钠。再灌注24 h后,断头取脑,做TTC染色,测定脑梗死体积,另一组取血,离心后,取血清,测定血清一氧化氮合酶(NOS)、超氧化物歧化酶(SOD)的活性及一氧化氮(NO),丙二醛(MDA)的含量。结果与模型组相比,各剂量的3′-大豆苷元磺酸钠治疗组脑梗塞体积减小;3'-大豆苷元磺酸钠治疗组血清NOS和SOD的活性升高,NO含量升高,MDA含量降低。结论 3'-大豆苷元磺酸钠对大鼠脑缺血再灌注损伤具有一定的保护作用,其保护机制与3'-大豆苷元磺酸钠促进NO释放及增强氧自由基的清除有关。

3'-大豆苷元磺酸钠抗心律失常作用研究

目的:研究3'大豆苷元磺酸钠的抗心律失常作用。方法:采用常规抗心律失常方法。结果:3'大豆苷元磺酸钠3.0、5.0、10.0mg/kg对氯仿诱发的小鼠室颤有明显的预防作用,0.5、1.0、3.0mg/kg对乌头碱诱发的大鼠心律失常有明显的治疗效果,0.5、1.0mg/kg能对抗肾上腺素诱发的家兔心律失常,0.5、1.0、3.0mg/kg对氯化钙诱发的大鼠室颤具有预防作用,且能明显的降低大鼠的死亡率。以上作用均具有明显的剂量依赖性。结论:3'大豆苷元磺酸钠具有明显的抗心律失常作用,其抗心律失常作用可能与其抑制Na+、Ca2+内流以及与阻断β肾上腺素受体有关。

3′-大豆苷元磺酸钠对大鼠脑缺血/再灌注损伤时IL-6的影响

目的研究3′-大豆苷元磺酸钠对大鼠脑缺血/再灌注损伤时IL-6的影响。方法大鼠大脑中动脉栓塞,制作脑缺血再灌注损伤模型,缺血后10 min,于舌下静脉给不同剂量的3′-大豆苷元磺酸钠。再灌注24 h后,断头取脑,TTC染色,测定脑梗塞体积;取前脑称湿重,烘干后称干重,计算脑组织含水量;取血2 ml,离心后,取血清,放免法测血清IL-6含量。结果与模型组相比,3′-大豆苷元磺酸钠治疗组脑梗塞体积减小,脑组织含水量降低,脑组织IL-6含量降低。结论 3′-大豆苷元磺酸钠对脑缺血再灌注损伤具有明显的保护作用,其保护机制与减少炎性细胞因子IL-6的表达有关。

3′-大豆苷元磺酸钠的体外抗氧化研究

为研究3′-大豆苷元磺酸钠(DSS)的体外抗氧化活性,测定了DSS对超氧自由基(O2-.)、羟基自由基(.OH)和1,1-二苯基-2-苦苯肼自由基(DPPH.)的清除能力,及其对Fe2+诱导的脂质过氧化反应和β-胡萝卜素/亚油酸自氧化体系的抑制作用。结果表明,DSS对DPPH.有一定的清除能力,对超氧自由基的清除能力较强,能很好地清除.OH自由基,对脂质过氧化有一定的抑制作用,对β-胡萝卜素/亚油酸自氧化体系有明显的抑制作用。说明DSS的药理作用可能与其较强的抗氧化能力有关。

3'-大豆苷元磺酸钠对去卵巢大鼠骨代谢的影响

目的观察3'-大豆苷元磺酸钠对去卵巢大鼠骨代谢的影响。方法选择健康SD雌性大鼠60只,随机分成6组,每组10只:①假手术组;②卵巢切除组(模型组);③卵巢切除加尼尔雌醇组(阳性对照组);④卵巢切除加3'-大豆苷元磺酸钠低剂量组(25μg·kg-1);⑤卵巢切除加3'-大豆苷元磺酸钠中剂量组(50μg·kg-1);⑥卵巢切除加3'-大豆苷元磺酸钠高剂量组(100μg·kg-1)。连续给药6周,末次给药24 h后实验,麻醉后取血清,测定血清中骨钙素、碱性磷酸酶、抗酒石酸酸性磷酸酶和孕酮的含量。结果模型组和3'-大豆苷元磺酸钠高剂量组骨钙素分别为(5.04±0.05)和(4.82±0.05)ng·mL-1;碱性磷酸酶分别为(47.31±0.02)×10-2和(36.90±0.21)×10-2U·mL-1;抗酒石酸酸性磷酸酶分别为(1.72±0.11)和(3.02±0.13)U·L-1;孕酮分别为(49.72±2.00)和(53.41±1.12)ng·mL-1。3'-大豆苷元磺酸钠可明显降低血清中骨钙素及碱性磷酸酶的含量(P<0.01),可明显升高血清抗酒石酸酸性磷酸酶(P<0.05)和血清孕酮含量(P<0.01)。结论 3'-大豆苷元磺酸钠可促进骨形成,从而对骨代谢发挥调节作用。

3′-大豆苷元磺酸钠对慢性心力衰竭大鼠心肌PLB和SERCA mRNA表达的影响

目的:观察3'-大豆苷元磺酸钠对慢性心力衰竭大鼠心肌受磷蛋白(phospholamban,PLB)和Ca2+-ATP酶(Ca2+-ATPase,SERCA)mRNA表达的影响,探讨3'-大豆苷元磺酸钠抗心力衰竭的机制。方法:结扎大鼠冠状动脉前降支造成心肌梗死后慢性充血性心力衰竭(CHF)模型,采用实时荧光定量PCR技术观察。心肌PLB和SERCA mRNA表达以及3'-大豆苷元磺酸钠对其影响。结果:各给药组均可不同程度的下调PLB mRNA表达,上调降低SERCA mRNA表达,其中3'-大豆苷元磺酸钠0.4mg.kg-1剂量组、地高辛组与模型组比较有显著性差异(P<0.05);各给药组均能降低PLB/SERCA比值,地高辛组和3'-大豆苷元磺酸钠0.4mg.kg-1、0.2mg.kg-1剂量组与模型组比较差异具有显著性(P<0.05,P<0.01)。结论:3'-大豆苷元磺酸钠治疗能提高SERCA mRNA表达,降低PLBmRNA表达,改善PLB/SER-CA比值,这可能是3'-大豆苷元磺酸钠抗心力衰竭的机制之一。

3’-大豆苷元磺酸钠在缺血再灌注损伤时对视网膜抗氧化能力及NOS活性的影响

目的研究3’-大豆苷元磺酸钠(DSS)在大鼠视网膜缺血再灌注损伤时对视网膜抗氧化能力及一氧化氮合酶(NOS)活性的影响。方法24只SD大鼠按随机数字表法分成4组:对照组、视网膜缺血再灌注模型组、低剂量(1mg/kg)及高剂量(2mg/kg)DSS组。颈总动脉夹闭法制作视网膜缺血再灌注模型,比色法测定血清丙二醛(MDA)、一氧化氮(NO)浓度及NOS、超氧化物歧化酶(SOD)、谷胱甘肽过氧化物酶(GSH-Px)活性。结果与对照组相比,模型组血清MDA浓度升高(P<0.05),NO浓度降低、eNOS活性降低(P<0.01)。与模型组比较,低剂量DSS组MDA浓度降低、SOD活性升高(P<0.05);高剂量DSS组GSH-Px活性升高(P<0.05),tNOS活性升高(P<0.05);DSS低剂量组(P<0.05)及高剂量组(P<0.01)NO浓度与模型组比较均升高,低剂量及高剂量DSS组eNOS活性均升高(P<0.05)。结论DSS可通过提高eNOS、SOD及GSH-Px的活性,从而提高视网膜缺血再灌注损伤时的抗氧化能力及NO的释放,降低组织细胞损伤,保护眼功能。

3′-大豆苷元磺酸钠对离体心肌缺血再灌注时NO ANG Ⅱ及ANP水平的影响

目的:研究3′-大豆苷元磺酸钠(DSS)对离体心脏缺血再灌注损伤的保护作用及NO、ANG Ⅱ和ANP含量的变化。方法:应用大鼠离体心肌缺血再灌注损伤模型,在灌流液中加入高、中、低剂量的DSS。测定冠脉流量、左心室收缩压及心肌组织NO、ANG Ⅱ和ANP含量的变化。结果:各剂量的3′-大豆苷元磺酸钠均能有效地增加冠脉流量,增强左心室收缩压;三种剂量的DSS均能升高心肌组织NO含量(P<0.05);高剂量的DSS使心肌组织ANG Ⅱ(P<0.05)含量降低,低剂量的DSS使ANP含量升高(P<0.05)。结论:DSS可通过增加NO、ANP的合成,减少ANG Ⅱ的释放,扩张冠脉,增强心肌收缩力,从而对离体心脏缺血再灌注损伤起保护作用。

3’-大豆苷元磺酸钠对小鼠前列腺增生及调节小鼠性激素平衡的影响

目的研究3’-大豆苷元磺酸钠对小鼠前列腺增生及调节小鼠性激素平衡的影响。方法皮下注射丙酸睾丸酮,制造小鼠前列腺增生模型,观察正常对照组,模型组,低剂量3'-大豆苷元磺酸钠组及高剂量3’-大豆苷元磺酸钠组小鼠前列腺湿重、前列腺指数和性激素水平的影响。结果3’-大豆苷元磺酸钠对丙酸睾丸酮所致小鼠前列腺增生具有显著的拮抗作用;同时能明显降低小鼠血清T,E2,T/E2的含量。结论3’-大豆苷元磺酸钠能显著抑制小鼠前列腺增生,降低小鼠血清T,E2,T/E2的含量,从而起到抑制小鼠前列腺增生的作用。