Simultaneous Determination of Saponins in Radix Glycyrrhizae, Notoginseng and Ginseng by High Performance Liquid Chromatography

To establish a method for determining five saponins(notoginsenoside R1, ginsenoside Rg1, ginsenoside Re, ginsenoside Rb1 and ammonium glycyrrhizinate) in Glycyrrhizae, Notoginseng and Ginseng, the high performance liquid chromatography with diode array detector(HPLC-DAD) method was applied to an Inertsil ODS-SP column(4.6 mm×250 mm, 5 μm) with a mobile phase consisting of acetonitrile-0.05% phosphoric acid in a gradient elution manner. The flow rate was 1.0 mL/min. The column temperature was 30 ℃ and the detection wavelengths were 203 nm and 237 nm, respectively. The linear ranges were 0.700,0—7.000,0 μg for R1(r=1.000,0), 0.751,1— 7.511,4 μg for Rg1(r=1.000,0), 0.677,2—6.771,6 μg for Re(r=1.000,0), 0.733,9—7.339,1 μg for Rb1(r= 1.000,0), and 0.540,0—5.399,8 μg for ammonium glycyrrhizinate(r=0.999,9), respectively. In addition, their average recoveries were 100.28%, 105.83%, 104.09%, 99.36% and 98.54%, respectively. The relative standard deviations(RSDs) of precision, reproducibility and recovery were all less than 1.5%. The results indicate that the method is simple, accurate and reproducible so that it can be used for the simultaneous determination of the five saponins in Chinese patent medicines containing the three kinds of herbs.

Protective effects of vitamin B_12 , ginseng saponin, and folic acid against murine fetal deformities caused by hyperthermia

Objective To investigate the protective effects of vitamin B12 , ginseng saponin , and folic acid on mouse embryos subjected to high heat.Methods Mice were used for the experiment.Results After exposure of pregnant mice to high heat, the rates of teratism, stillbirth, and fetal absorption were markedly lower in mice treated with ginseng saponin and folic acid following heat exposure than in untreated mice. There were no significant differences in these rates when comparing mice treated with vitamin B12 with the untreated mice.Conclusions Ginseng saponin and folic acid can lessen injuries to murine embryos caused by high heat, while vitamin B12 has little protective effect against high temperature except for promoting overall embryonic growth.

Total saponins of Panax ginseng effects on proliferation and differentiation of human embryonic neural stem cells and in a Parkinson's disease mouse model

BACKGROUND： Total saponins of Panax ginseng （TSPG） exhibits neuroprotection against Parkinson＇s disease in the substantia nigra. OBJECTIVE： To investigate the effects of TSPG on human embryonic neural stem cells （NSCs） proliferation and differentiation into dopaminergic neurons using in vitro studies, and to observe NSC differentiation in a mouse model of Parkinson＇s disease, as well as behavioral changes before and after transplantation. DESIGN, TIME AND SETTING： In vitro neural cell biology trial and in vivo randomized, controlled animal trial were performed at the Institute of Basic Medical Sciences, Chongqing Medical University between September 2004 and December 2007. MATERIALS： TSPG （purity 〉 95%） was isolated, extracted, and identified by Chongqing Academy of Chinese Materia Medica. Recombinant human basic fibroblast growth factor （bFGF） and recombinant human epidermal growth factor （EGF） were purchased from PeproTech, USA. A total of 25 C57/BL6J mice, aged 18-20 weeks were included. Twenty were used to establish a Parkinson＇s disease model with i.p. injection of MPTP （1-methyl-4-phenyl-1, 2, 3, 6-tetrahydropyridine） and TSPG alone or combined with interleukin-1 （IL-1）-treated NSCs prior to transplantation into the corpus striatum. The remaining five mice were pretreated for 3 days with TSPG prior to MPTP injection, serving as the TSPG prevention group. METHODS： Primary NSCs were isolated, cultured and purified from embryonic cerebral cortex. Immunocytochemistry was employed to detect specific antigen expression in the NSCs. In vitro experiment： （1） to induce proliferation, NSCs were treated with TSPG, EGF＋bFGF, or TSPG＋EGF＋bFGF, respectively; （2） to induce dopaminergic neuronal differentiation, NSCs were treated with TSPG, IL-1, or TSPG＋IL-1, respectively. MAIN OUTCOME MEASURES： In vitro experiment： the effects of TSPG on NSCs proliferation were evaluated with flow cytometry and MTT assay. Tyrosine hydroxylase expression was determined by immunocytochemistry assay to observe effects of TSPG on dopaminergic neuronal differentiation. In vivo experiment： differentiation of grafted NSCs in the mouse brain was determined by immunohistochemical staining. Behavioral changes were evaluated by spontaneous activity frequency, memory function, and score of paralysis agitans. RESULTS： （1） NSCs were cultured and passaged for more than three passages. Immunocytochemistry revealed positive nestin staining, as well as neurofilament protein and glial fibrillary acidic protein. （2） TSPG significantly increased NSC proliferation, in particular when combined with EGF and bFGF, which was twice as effective as FGF or bFGF alone. TSPG also induced dopaminergic differentiation in NSCs, in particular when TSPG was added together with IL-1, resulting in an effect five times greater than that of IL-1 alone. （3） At day 30 following transplantation, most NSCs in the TSPG prevention group differentiated into dopaminergic neurons, and the scores of paralysis agitans, spontaneous activity, and memory function were significantly increased compared with TSPG alone or TSPG＋IL-1 groups （P 〈 0.05）. CONCLUSION： TSPG stimulated NSC proliferation, in particular when combined with FGF and bFGF. TSPG significantly induced dopaminergic neuronal differentiation of NSCs, and the effect was greater when combined with IL-1. In addition, TSPG greatly improved behavior in the Parkinson＇s disease mouse model following NSC transplantation. Following NSC transplantation, TSPG pretreatment exhibited superior efficacy over either TSPG alone or TSPG in combination with IL-1, in terms of behavioral improvements in the Parkinson＇s disease mouse model.

Supercritical Fluid Extraction of Saponins from Ginseng

Introduction Ginseng（ Panax ginseng C. A. Meyer, Araliaceae） is one of the most valuable Chinese crude drugs and has been used widely for over 2000 years. Studies have demonstrated that ginseng can act on the central nervous system, the cardiovascular system and the endocrine system; it can enhance immune function and metabolism; it possesses a biomodulation action, anticancer effect, anti-stress and anti-ageing activities, and so on.

Determination of Saponins in Leaf of Panax Ginseng C. A. Mey. by High Performance Liquid Chromatography

A high performance liquid chromatography（HPLC） with UV detection was established for simultaneous determination of saponins in the leaf of Panax ginseng C. A. Mey. Nine ginsenosides（Rbl, Rb2, Rb3, Rc, Rd, F1, F2, F3, F5） and notoginsenoside Fe（NFe） were studied. Among the saponins, the ginsenosides F1, F2, F3, F5 and NFe were determined by HPLC-UV method for the first time. The determination of the ginsenosides via the HPLC-UV method was performed on a reversed-phase C18 column with gradient elution in 40 min. The linearity, precision, accuracy, and detection limit for determining the saponins were studied and the samples from different areas in China were analyzed. The HPLC-ESI-MS was used to identify the saponins. The results indicate that the HPLC-UV provided a good accuracy, reproducibility and sensitivity for the determination of the ten saponins.

A NEW TRITERPENE SAPONIN FROM THE STEMS AND LEAVES OF PANAX GINSENG

a new triterpene compound was isolated from the stems and leaves of Panax ginseng C. A. Meyer and established as 3β, 6α, 12β-trihydroxy-dammar-20(21), 24-diene-6-0-α-L-rhamnopyranosyl-(1→2)-β-D-glucopyranoside on the basis of spectral analysis and chemical evidence.

高效液相色谱-串联四极杆质谱法测定人参组培不定根中11种皂苷成分

建立高效液相色谱-串联四极杆质谱(HPLC-MS/MS)法定量分析人参组培不定根中11种皂苷成分。样品经粉碎研磨,以70%甲醇水溶液为溶剂进行超声提取,离心过滤后测定。采用C_(18)色谱柱(100 mm×2.1 mm,1.8μm),用水和乙腈进行梯度洗脱,流量为0.3 mL/min,柱温为35℃。质谱采用电喷雾电离源,负离子扫描,多反应监测模式进行检测。11种皂苷的质量浓度在0.1~10μg/mL(Rb1为0.2~10μg/mL)范围内和响应强度线性相关,相关系数均大于0.995,各皂苷的定量限为0.001~0.010 g/kg,加标回收率为90.43%~97.82%,相对标准偏差为1.93%~6.33%(n=6)。该方法操作简单,分析时间短,灵敏度高,准确可靠,适用于人参组培不定根中多种皂苷类成分的同时测定。

人参不定根总皂苷的提取工艺优化及其抗氧化与抗疲劳作用

目的:探究人参不定根总皂苷(ginseng adventitious roots total saponins,GARS)的最佳提取工艺及抗氧化和抗疲劳作用。方法:利用乙醇回流法提取GARS,通过正交试验考察乙醇浓度、料液比、提取温度、提取时间对GARS含量的影响;以1,1-二苯基-2-三硝基苯肼(DPPH)、2,2-联氮-二(3-乙基-苯并噻唑-6-磺酸)二铵盐(ABTS+)、3-氧代-2-苯基-4,4,5,5-四甲基咪唑啉-1-氧(PTIO)、羟自由基(·OH)、超氧阴离子自由基(O_(2)^(-)·)清除能力及还原力作为测定抗氧化活性指标;通过测定小鼠力竭游泳和爬杆时间,测定肌/肝糖原、乳酸(LD)、尿素氮(BUN)含量及乳酸脱氢酶(LDH)活性来判定GARS抗疲劳能力。结果:通过正交试验得到最佳提取工艺条件为乙醇浓度70%、料液比1:30 g/mL、提取温度70℃、提取时间40 min,得到GARS含量为107.85 mg/g;GARS对DPPH、ABTS^(+)、PTIO、OH、O_(2)^(-)自由基都有一定程度清除作用,且具有还原性,其清除能力和还原性与浓度呈正比;GARS能够显著延长小鼠力竭游泳和爬杆时间(P<0.05),显著增加肌/肝糖原含量(P<0.05),降低LD、BUN含量,提高LDH活性,并与其浓度呈正比。结论:GARS提取的最优条件为乙醇浓度70%、料液比1:30 g/mL、提取温度70℃、提取时间40 min,可为GARS产业化生产提供依据,且GARS具有一定的抗氧化和抗疲劳作用,可为明确人参不定根营养成分和活性物质提供理论支持,为开发人参不定根药食同源的相关产品提供技术参考。

参玫五味粉中总皂苷与多糖的提取及其体外活性研究

试验旨在探究参玫五味粉中总皂苷与多糖联合提取的最佳工艺条件及其体外活性。试验以参玫五味粉总皂苷与多糖的提取质量分数为考察指标,通过对提取溶剂浓度和浸泡时间的优化确定最佳提取工艺,测定参玫五味粉总皂苷提取物与多糖提取物对羟基自由基的清除率及对亚硝酸盐的抑制率,探索其体外抗氧化和抗肿瘤活性。结果显示:在最佳提取工艺条件下,联合提取4根层析柱中总皂苷的提取率依次为92.65%、98.99%、102.68%、104.31%,出膏率为10.00%,干浸膏中总皂苷含量为34.99 mg/g;多糖的提取率依次为93.57%、98.20%、100.77%、101.27%,出膏率为12.55%,干浸膏中多糖含量为19.20 mg/g。参玫五味粉总皂苷与多糖提取物清除羟基自由基的IC_(50) 值均大于对照VC,表明两者具有体外抗氧化活性,且具有一定的亚硝酸盐抑制作用。研究表明,柱层析联合提取法同时提取参玫五味粉总皂苷与多糖,提取率高且操作简便易行,可为畜牧业饲料添加剂的发展提供参考价值。

SPE-UPLC联用快速检测保健品中人参皂苷Rh2成分

目的:基于固相萃取与超高液相色谱联用技术,建立一种快速准确检测保健品中人参皂苷Rh2成分的方法,为市售含有人参皂苷Rh2成分的保健品的质量评价提供参考。方法:样品预处理后经甲醇超声提取,中性氧化铝SPE小柱净化,筛选合适的洗脱剂进行HLB-SPE小柱分离纯化,采用WatersT3(100 mm×2.1 mm,1.8μm)色谱柱,乙腈-水为流动相梯度洗脱,PDA全波长扫描,流速0.3 mL·min^(-1)。结果:SPE-UPLC法测得人参皂苷Rh2浓度在9.7~99.8μg·mL^(-1)与其峰面积线性关系良好(r=0.999),平均回收率为99.20%。结论:该方法准确、简便、快速,并能有效去除辅料干扰,稳定性高,可用于含有人参皂苷Rh2有效成分的保健食品的质量控制。

人参不定根中皂苷对小鼠脂质代谢的影响研究

目的研究人参不定根皂苷对小鼠脂质代谢的影响。方法将小鼠随机分成5个实验组(共50只,每组10只),分别为正常组(生理盐水)、对照组(生理盐水)、人参不定根皂苷低(50 mg/kg)、中(100 mg/kg)、高(200 mg/kg)剂量组,连续灌胃30 d,测定小鼠血脂、肝损伤和抗氧化指标。结果与高脂对照模型组相比,人参不定根皂苷高剂量组甘油三酯、总胆固醇显著降低(P<0.05)、低密度脂蛋白胆固醇极显著降低(P<0.01);中、高剂量组谷草转氨酶和谷丙转氨酶含量极显著降低(P<0.01);中、高剂量组总超氧化物歧化酶活性极显著升高(P<0.01)、丙二醛含量极显著降低(P<0.01)。结论人参不定根皂苷能够促进高脂饲料诱导高脂血症小鼠机体代谢,降低血脂,修复肝损伤,降低过氧化损伤,增强抗氧化能力。

人参发酵产物中总皂苷的纯化研究

以人参总皂苷为评价指标,考察洗脱液体积、上样液质量浓度、上样液体积等因素,测定纯化过程的最佳参数。结果表明,最佳的提纯工艺是采用D101大孔树脂,湿法填装,药液的质量浓度0.8 g/mL,上样时所用的速度2 BV/h,静置1 h吸附药液,洗脱时先用蒸馏水将未吸附杂质洗去,再用5 BV的75%乙醇溶液洗去有效成分。最终确定的纯化工艺既简单又高效,可以适用于大生产。

不同光质激光对人参生长的影响

近年来,随着半导体激光器技术的不断进步,在农业领域应用的激光技术备受关注。激光光源具有单色性强、电光转换效率高、使用成本低等优势,为提高农作物质量、增加产量提供了新的技术支持。为了研究不同光质激光对人参生长、生理生化指标以及多糖、皂苷积累等方面的影响,选取二年生人参载子进行试验。从展叶期到叶片枯萎前的每日上午7:00—11:00,下午14:00—18:00分别利用全波长LED灯、红色激光灯(R3)、蓝色激光灯(B3)、混合激光灯(R2B1、R3B2)(光量子通量密度分别为4.48μmol/(m^(2)·s),4.61μmol/(m^(2)·s))补光,针对不同光质补光的影响,本研究设立了不补光作为空白对照组,研究发现,人参的净光合作用能力、叶片的气孔导度等都有所改善。特别是LED处理组的净光合速率表现最为突出,而蓝光处理组则在蒸腾速率和胞间CO_(2)浓度方面取得了最显著的效果提升。R3B2处理组气孔导度最大。就生长情况而言,人参在红蓝混合光处理下表现最佳,相比于对照组,蓝光能够显著提高植株的高度、增加叶片的长度和宽度,LED补光组根重、叶重均高于其他处理;从营养物质积累方面来看,蓝光处理下多糖含量最高,红光处理下皂苷含量积累普遍高于蓝光处理组,说明红光促进人参皂苷含量的积累,R2B1处理组Rg1、Rb1皂苷含量最高,远高于其他处理,R3B2处理时Re皂苷含量与红光处理组结果相当,高于其他4个处理。在未来的研究中,我们将选取最适宜人参生长及营养物质积累的激光补光条件,为缩短人参生长周期、提质增效而提供可行性方法。

HPLC结合化学计量学分析研究人参和三七不同部位丙二酰基人参皂苷和中性皂苷的差异性

建立HPLC法同时测定人参和三七不同部位丙二酰基人参皂苷和中性皂苷的含量,并采用聚类分析和主成分分析的化学计量学方法分析丙二酰基人参皂苷和中性皂苷含量,以对人参和三七地上和地下药用部位进行分类。结果表明人参中性皂苷和丙二酰基人参皂苷在人参和三七不同部位中存在着显著的差异。在人参的地下部位中,丙二酰基人参皂苷的含量均略高于中性人参皂苷;在人参的地上部位,丙二酰基人参皂苷含量低于中性人参皂苷;然而丙二酰基人参皂苷不论在三七地下部位还是地上部位含量均较低。聚类分析和主成分分析结果显示,12批人参和三七样品分成4类,人参地下部位R1〜R4聚为一类,地上部位R5〜R6聚为一类;三七地下部位S1〜S4聚为一类,地上部位S5〜S6聚为一类。此方法灵敏度高,稳定可靠,可为人参和三七不同部位的准确鉴别提供科学依据。

人参酵素皂苷含量的分析研究

人参酵素是以人参作为主要原料,经过发酵产生的一种红棕色的液体,不但可以预防多种疾病,而且在美容方面发挥着非常重要的作用。人参是营养价值极高的一种植物资源,具有非常强大的滋补能力,研究发现,人参中可以分离出多种皂苷和多糖,它们是人参生理活性的物质基础。文章主要研究人参酵素中皂苷含量,分别使用p H试纸和p H计测定人参酵素的酸碱度;使用分光光度计在400~700 nm波长之间对人参皂苷Re进行光谱分析,得到550 nm是其最大吸收波长,然后在550 nm的波长下以人参皂苷Re作为标准品测定其吸光度,再计算人参酵素中的皂苷含量;pH计测出人参酵素呈酸性,pH为3.68;人参总皂苷在0~100 uL范围内线性关系相对良好,S_(RSD)(相对标准差)为2.1%(n=3),结果显示人参酵素中皂苷含量为0.2 mg/mL。由以上实验结果可知,酵素是一种酸性的液体,易于保存。人参皂苷是人参酵素中的主要活性物质,保留了人参的生物活性。

保健食品中人参皂苷类成分的快速检测及应用

在开发保健食品的过程中,人参是主要原料,皂苷类成分是人参的主要组成内容。为进一步保证保健食品的有效性及安全性,需强化对人参皂苷类成分的快速检测,并将不同的快速检测方法应用于实际工作之中,以提升快速检测质量与效率。本文对保健食品中人参皂苷类成分的快速检测及应用进行研究与分析,以期为相关工程的开展提供保障。

西洋参总皂苷通过Nrf2-ARE通路对压力性尿失禁的治疗作用

目的:探究西洋参总皂苷通过调控Nrf2/ARE通路对压力性尿失禁的治疗作用。方法:制备压力性尿失禁大鼠模型,将60只大鼠随机分为对照组(Control组)、压力性尿失禁大鼠模型组(SUI组)、压力性尿失禁大鼠模型分别给予低、中、高剂量西洋参总皂苷干组(PQSL组、PQSM组、PQSH组)和PQSH组基础上给予Nrf2特异性抑制剂ML385干预组(PQSH+ML385组),每组10只。统计各组大鼠喷嚏阳性率;测定尿动力学指标(MBC、LPP、ALPP);测定膀胱内压(排尿量、残余尿量、排尿效率);Masson染色检测尿道组织胶原纤维量;检测尿道组织氧化应激指(MDA、SOD、GSH-Px);蛋白质印迹检测脑组织中Nrf2、HO-1、NOQ1蛋白表达。结果:Control组大鼠喷嚏实验均为阴性。造模50只大鼠均出现了喷嚏实验阳性;PQSL组、PQSM组、PQSH组喷嚏实验阳性率分别为60%(6/10)、40%(4/10)、20%(2/10),PQSH+ML385组大鼠喷嚏实验阳性率为70%(7/10),SUI组大鼠喷嚏实验阳性率为80%(8/10)。和Control组相比,SUI组大鼠MBC、LPP、ALPP水平、排尿效率、GSH-Px含量和SOD活性降低,排尿量、残余尿量、MDA含量增多(P<0.05);和SUI组相比,PQSL组、PQSM组、PQSH组大鼠MBC、LPP、ALPP水平、排尿效率、GSH-Px含量和SOD活性增加,排尿量、残余尿量、MDA含量减少,且呈浓度依赖(P<0.05);和PQSH组相比,PQSH+ML385组大鼠MBC、LPP、ALPP水平、排尿效率、GSH-Px含量和SOD活性降低,排尿量、残余尿量、MDA含量增多(P<0.05)。和Control组相比,SUI组大鼠尿道组织中Nrf2、HO-1、NQO1蛋白表达明显降低(P<0.05);和SUI组相比,PQSL组、PQSM组、PQSH组大鼠尿道组织中Nrf2、HO-1、NQO1蛋白表达均明显升高,且呈剂量依赖(P<0.05);和PQSH组相比,PQSH+ML385组大鼠尿道组织中Nrf2、HO-1、NQO1蛋白表达均明显降低(P<0.05)。结论:西洋参总皂苷可通过激活Nrf2/ARE信号通路改善压力性尿失禁排尿功能,从而对压力性尿失禁达到治疗作用。

人参果汁浓缩液对免疫低下小鼠免疫功能的影响

目的:研究人参果汁浓缩液对免疫低下小鼠免疫功能的影响。方法:72只雄性SPF级C57BL/6J小鼠随机分成空白组、模型组、人参果汁浓缩液(83、166、249、332 mg/kg m_(b))组,每组12只。模型组和人参果汁浓缩液各剂量组自第1天开始,每日腹腔注射40 mg/kg m_(b)环磷酰胺,连续10 d,空白组腹腔注射等量的磷酸盐缓冲液;同时自第1天开始,人参果汁浓缩液各剂量组每日给予小鼠灌胃20 mL/kg m_(b)不同剂量人参果汁浓缩液,空白组和模型组灌胃等量的蒸馏水,连续15 d后测定小鼠体质量、脾脏和胸腺质量、白细胞数量、淋巴细胞亚群数量、细胞因子表达水平以及免疫细胞核转录因子表达水平。结果:人参果汁浓缩液可改善免疫低下小鼠的脾脏质量/指数,提高免疫低下小鼠外周血细胞数量和免疫器官中淋巴细胞亚群数量,促进免疫低下小鼠细胞因子白细胞介素(interleukin,IL)-2、IL-4和IL-17的表达和抑制负调控因子转化生长因子(transforming growth factor,TGF)-β的表达,以及部分恢复免疫细胞核转录因子T细胞中T-box(T-box expressed in T cells,T-bet)和叉头样转录因子3(forkhead box protein 3,Foxp3)mRNA的表达(P<0.05);其中,以249 mg/kg m_(b)人参果汁浓缩液效果最为显著;人参果汁浓缩液对免疫低下小鼠体质量和胸腺质量的恢复无明显效果。结论:人参果汁浓缩液可以增强免疫低下小鼠的免疫功能。

黑参皂苷的提取纯化及其对MGC-803细胞凋亡的影响

为了探究黑参皂苷的抗肿瘤作用,将生晒参在高温高湿条件下制备成黑参,采用乙醇超声辅助法提取皂苷,并用大孔树脂纯化,液相质谱联用技术(liquid chromatograph-mass spectrometer,LC-MS)测定人参和黑参的皂苷类成分。采用MTT法、流式细胞术、蛋白质印迹法(Western Blot)探讨黑参皂苷对胃癌MGC-803细胞的抑制作用及诱导其凋亡机制。经大孔树脂纯化后黑参皂苷含量为89.02%。LC-MS分析黑参具有14种单体皂苷,其中Rg3、Rg5为稀有皂苷。在对MGC-803细胞活性方面,人参皂苷24 h的IC50为296.64μg/mL,黑参皂苷为141.25μg/mL,且用浓度为200μg/mL的黑参皂苷处理细胞24 h后,其凋亡率为66.96%,线粒体膜电位下降至23.45%,活性氧(reactive oxygen species,ROS)水平升高至74.65%。Western Blot结果表明黑参皂苷处理组Bax、Cyt-C、Caspase-3、Caspase-9的表达量均增加,Bcl-2的表达量降低。研究表明,制备的黑参产生了稀有皂苷。黑参皂苷有更强的抗肿瘤活性,细胞凋亡机制是通过Bax、Bcl-2蛋白表达的改变导致线粒体膜电位降低,释放Cyt-C,Caspase-3、Caspase-9被激活而裂解使胃癌MGC-803细胞发生凋亡。

人参总皂苷对后肢悬吊大鼠奖励性操作式条件反射能力的保护作用

目的 本研究旨在探讨人参总皂苷(GTSs)对持续暴露于微重力环境导致的宇航员认知障碍的治疗作用。方法 按完成奖赏条件反射适应任务的时间,将50只无特定病原体(SPF)雄性Wistar大鼠随机分为对照组、后肢悬吊(HLS)组、石杉碱甲(HLS-Hup A 0.1 mg/kg)组、 GTSs低剂量(HLS-GTSs100 mg/kg)组和GTSs高剂量(HLS-GTSs 200 mg/kg)组。除对照组外,其余各组大鼠后肢悬吊并给予药物治疗(第20–58天),进行奖赏反射测试,并对大鼠的海马进行尼氏体染色和蛋白质印迹检测。结果 造模后,与对照组比较,HLS组大鼠按压杠杆次数减少,完成奖赏条件反射任务Ⅰ的时间延长(P <0.05),而HLS-GTSs 100和200 mg/kg组大鼠上述指标无明显变化(P> 0.05)。奖赏操作条件反射Ⅱ实验中,与对照组相比,HLS组大鼠按压杠杆次数明显减少(P <0.05),触摸鼻腔次数明显减少(P <0.01);与HLS组大鼠比较,HLS-GTSs 100 mg/kg组大鼠杠杆按压次数和鼻触次数均明显增加(P <0.05),HLS-GTSs200 mg/kg组完成时间显著缩短,杠杆按压次数显著增加(P <0.05)。视觉信号辨别实验中,与对照组大鼠相比,HLS组大鼠视觉信号辨别测试指标降低(P <0.01),HLS-GTSs 100和200 mg/kg组大鼠视觉信号辨别能力明显升高(P <0.01)。奖赏消退实验中,与对照组相比,HLS组大鼠的杠杆按压次数显著增加(P <0.01);与HLS组相比,HLS-GTSs 100和HLS-GTSs 200 mg/kg组大鼠的杠杆按压次数显著降低(P <0.05)。HLS组大鼠N-甲基-D-天冬氨酸受体1 (NR1)和磷酸化N-甲基-D-天冬氨酸受体2B(p-NR2B)蛋白表达明显降低(分别为P <0.01和P <0.05),而NR2B蛋白表达无明显变化(P> 0.05)。GTSs可上调p-NR2B的表达水平(P <0.01)。结论 GTSs通过调节NR1/NR2B磷酸化通路改善大鼠对复杂操作的学习记忆能力。