人参皂甙对老龄大鼠海马结构BDNF及Trk B蛋白表达的影响

目的探讨老龄大鼠海马结构BDNF及Trk B蛋白表达的老龄性变化,同时对比观察人参皂甙对其改变的影响。方法雌性Wistar大鼠39只,分为青年组、老龄组、给药组(第17个月始饲以人参皂甙至27月龄)。采用免疫组化及Western blot方法对海马结构BDNF反应产物及Trk B蛋白进行定性、定量分析。结果老龄组CA3、CA1区BDNF含量分别较青年组下降13.3%、10.4%(P<0.05);其给药组和老龄组相比变化不大(P>0.05)。齿状回从青年到老年变化不明显(P>0.05),但给药组比老龄组增加16.7%(P<0.01)。老龄组海马结构Trk B蛋白表达较青年组下调了99.7%;给药组较老龄组上调了78.5%(P<0.01)。结论老龄组海马结构BDNF及Trk B蛋白表达较青年组明显降低,而人参皂甙可明显上调齿状回BDNF含量和海马结构Trk B蛋白的表达。     

人参皂甙对老龄大鼠Meynert核TrkB mRNA表达的影响

目的探讨人参皂甙对老龄大鼠Meynert核(NBM)神经元TrkB mRNA表达的影响.方法选40只雌性Wistar大鼠随机分为3组:青年组(3-5月龄)、老龄组(24-27月龄)及给药组(24-27月龄).给药组大鼠自18月始饲以人参皂甙至24-27月龄.对各组NBM神经元进行原位杂交组织化学法染色,采用图象分析法测定各组平均灰度值并作t检验.结果老龄组大鼠NBM神经元TrkB mRNA表达显著低于青年组,而给药组较老龄组大鼠表达增多.结论人参皂甙对NBM神经元TrkB mRNA表达有促进作用,本结果为人参皂甙抗脑衰老及AD的临床治疗提供了形态学依据.     

人参皂甙Rb1对大鼠脑缺血再灌注神经损伤后的修复作用

通过阻塞大鼠大脑动脉,制备短暂性脑缺血大鼠模型,将出现神经功能缺失症状的大鼠随机分组,实施再灌注后立即按(40mg/kg)进行腹腔注射人参皂甙Rb1。结果发现大鼠脑缺血再灌注后,人参皂甙Rb1通过促进NAIP、Bcl-2表达和抑制Bax表达发挥神经损伤后的修复作用。人参皂甙Rb1给药组在各时间点的胶质细胞源性神经营养因子(GDNF)阳性细胞数远远高于单纯脑缺血再灌注组(P<0.01)。GDNF的表达与缺血性损伤有一定的联系,可认为人参皂甙Rbl对神经系统有一定保护作用。     

人参皂甙Rg1与1,6-二磷酸果糖配伍抗疲劳作用的研究

观察人参皂甙Rg1与1,6-二磷酸果糖配伍的抗疲劳效果,寻找最佳配伍剂量。根据雄性清洁级昆明种小鼠按体重随机分为安静对照组、运动对照组、人参皂甙Rg1对照组及4个配伍组。通过析因实验设计分析人参皂甙Rg1与1,6-二磷酸果糖提高运动耐力的效果及两者的交互作用。结果不同剂量人参皂甙Rg1对小鼠力竭游泳时间影响有显著差异(P<0.05)。各配伍组力竭游泳时间均有显著延长,C组延长最显著;与人参皂甙Rg1对照组相比,各配伍组力竭游泳时间均显著降低(P<0.01)。MDA含量A组显著低于运动对照组和D组,与安静对照组相比,各组均升高。SOD/MDA比值A、C组显著高于运动对照组,C组显著高于人参皂甙Rg1对照组,与安静对照组相比,各组均有下降趋势,D组下降最显著(P<0.01)。乳酸脱氢酶C、D组显著低于运动对照组和人参皂甙Rg1对照组(P<0.05)。与运动对照组及人参皂甙Rg1对照组相比,配伍在一定程度上减少心肌、骨骼肌细胞线粒体和其他细胞超微结构损伤。结论:与FDP配伍未能延长小鼠力竭游泳时间,配伍可减轻耐力运动对小鼠心肌和骨骼肌的细胞损害,一定程度上保护线粒体的呼吸功能,缓解细胞缺氧损伤。     

人参皂甙对气虚型大鼠血管内皮损伤相关基因谱的影响

用高L-蛋氨酸复制SD大鼠血管内皮损伤,并附以负重游泳法制造气虚实验模型。应用RT-PCR技术和NCB I提供的SAGE(serial analysis of gene expression)数据库及在线工具,分析内皮损伤相关的炎症、氧化应激基因表达谱的变化,以及人参皂甙对基因表达谱的影响。结果显示,与模型组相比,人参皂甙组炎症相关COX-1(P<0.001)、COX-2(P<0.001)、氧化应激相关iNOS(P<0.001)、SOD基因表达(P<0.05)及血管舒缩相关eNOS(P<0.05)、ECE(P<0.001)的基因表达降低;PCS的基因表达变化无统计学意义。人参皂甙能够改善气虚型大鼠血管内皮损伤病变时基因表达谱的异常,从而起到保护血管内皮免受损伤的作用。探讨人参皂甙对气虚型大鼠血管内皮损伤相关的炎症、氧化应激等基因表达谱的影响。     

人参皂甙对缺氧大鼠海马DG区神经细胞DNA损伤保护作用的研究

目的:用单细胞凝胶电泳技术(SCGE)研究急慢性缺氧大鼠海马DG区神经细胞细胞DNA损伤和人参皂甙对缺氧大鼠海马细胞DNA的保护作用.方法:健康成年SD大鼠随机分为急、慢性缺氧正常对照组、急性缺氧组和慢性缺氧组(分别在模拟海拔5000米高原环境连续缺氧暴露0d、3d和30d)、急性缺氧人参皂甙干预组、慢性缺氧人参皂甙干预组.应用SCGE检测海马DG区神经细胞DNA损伤.结果:随着缺氧时间的增加,海马DG区神经细胞DNA的损伤程度加重,尾长、尾部DNA百分含量和尾距显著增加(P＜0.05).人参皂甙能使缺氧损伤的海马DG区神经细胞的尾长、尾部DNA百分含量和尾距均较缺氧组减少(P＜0.05).结论:人参皂甙能有效地减轻缺氧引起的海马组织细胞DNA的断裂损伤.     

人参皂甙对气虚型血管损伤中COX-2和iNOS相互作用的影响

探讨气虚型大鼠血管内皮损伤中COX-2和iNOS的蛋白水平及其相互作用,以及人参皂甙的防治作用.用高L-蛋氨酸复制SD大鼠血管内皮损伤,并附以负重游泳法制造气虚实验模型.应用Western blotting分析内皮损伤相关的COX-2和iNOS蛋白水平的变化,免疫共沉淀和激光共聚焦显微镜技术,探讨两者的相互作用,光镜和电镜分析血管内皮的病理变化.结果显示:模型组、COX-2和iNOS蛋白含量显著增高,并存在明显的相互作用,与血管内皮的病理损伤相一致;与模型组相比,人参皂甙组COX-2和iNOS的蛋白含量降低,且两者的相互作用减弱.气虚型大鼠血管内皮损伤中,COX-2和iNOS蛋白含量增高,且两者之间的相互作用增强,加重血管内皮损伤,人参皂甙能够纠正这些异常,起到保护血管内皮免受损伤的作用.     

眼镜蛇毒对大鼠延髓nNOS表达的影响

目的 探讨眼镜蛇毒对大鼠延髓nNOS表达的影响.方法 采用免疫组织化学方法,观察并比较nNOS阳性神经元在眼镜蛇毒组、生理盐水组、正常对照组大鼠延髓的表达.结果 眼镜蛇毒组大鼠延髓外侧网状核nNOS阳性神经元明显多于生理盐水组和正常对照组(P＜0.01),细胞平均灰度值明显降低(P＜0.01).结论 眼镜蛇毒对大鼠延髓nNOS表达有上调作用.     

人参皂甙 Rb1与Re对大鼠缺血再灌注心肌细胞凋亡的影响

目的观察人参皂甙Rb1与Re对缺血再灌注心肌细胞凋亡的影响,并比较两者的效应差异.方法结扎Wistar大鼠左冠状动脉前降支,建立大鼠缺血再灌注动物模型;采用透射电镜、缺口末端标记法检测心肌凋亡细胞,利用光学显微镜进行细胞计数.结果 (1)透射电镜发现缺血再灌注组缺血区出现心肌凋亡细胞,假手术组未发现心肌凋亡细胞;(2)缺血再灌注组心肌细胞凋亡数为134.45±45.61个/视野,人参皂甙Rb1治疗组51.65±13.71个/视野,人参皂甙Re治疗组90.66±19.22个/视野,三组间有非常显著性差异(P<0.01).结论心肌缺血再灌注诱导心肌细胞凋亡,人参皂甙Rb1和Re均可显著减少缺血再灌注心肌细胞的凋亡.证实人参皂甙Rb1与Re均有抑制缺血再灌注心肌细胞凋亡,减轻心肌缺血再灌注损伤的作用;人参皂甙Rb1的抗心肌细胞凋亡作用较Re的效果为佳.     

人参皂苷Rg2对异丙肾上腺素诱导的大鼠心室重构的保护作用

目的：探讨人参皂苷Rg2对异丙肾上腺素诱导的心室重构模型大鼠的保护作用。方法：将60只雄性Wistar大鼠随机分为对照组、心室重构模型组、人参皂苷Rg2（20、40、80 mg/kg）组和普萘洛尔（propranolol,15 mg/kg）组,n=10。采用多点皮下注射异丙肾上腺素85 mg/（kg·d）,连续7 d,建立大鼠心室重构模型;对照组皮下注射等体积的生理盐水。此后按分组灌胃给药,每天1次,连续给药6 w后,使用八道生理记录仪测定血流动力学参数,并测定心脏重量和左心室重构指数。结果：与对照组相比,注射异丙肾上腺素后第7周时模型组大鼠颈动脉收缩压、舒张压、平均动脉压、心率、LVSP、+dp/dt_max、-dp/dt_max显著降低（P<0.01）;而HW/BW和LVW/BW、LVDP显著升高（P<0.01）。与模型组相比,人参皂苷Rg2低、中、高剂量组和普萘洛尔组大鼠颈动脉收缩压、舒张压、平均动脉压、心率、LVSP、+dp/dt_max、-dp/dt_max显著升高（P<0.05,P<0.01）;LVDP显著降低（P<0.01）,而人参皂苷Rg2中、高剂量组和普萘洛尔组大鼠HW/BW和LVW/BW显著降低（P<0.01）。与普萘洛尔组相比,人参皂苷Rg2低剂量组收缩压、舒张压、平均动脉压显著降低（P<0.05,P<0.01）;人参皂苷Rg2低剂量组LVDP和高剂量组LVSP和+dp/dt_max显著升高（P<0.05,P<0.01）。结论：人参皂苷Rg2对异丙肾上腺素所致的心室重构模型大鼠具有改善作用。     

耐力运动对增龄大鼠脑皮层突触可塑性的影响及相关调控机制*

目的:探讨规律性耐力运动对脑皮层增龄性老化适应性的作用与机制。方法:将三个不同年龄段的健康SPF级雄性Sprague-Dawley大鼠分为3月龄 (青年,n=20)、13月龄 (中年,n=24)和23月龄 (老年,n=24)组,每组又随机分为静息组和运动组;静息组三组静息,运动组三组实施10周递增负荷规律的中等强度耐力运动:运动方式为跑台运动(坡度0),运动强度从最大摄氧量(V·O2max) 60%～65%逐渐递增到70%～75%,运动时间为10周;取大鼠脑皮层,HE染色测试大鼠脑皮层增龄性形态学变化,检测BDNF和SOD的蛋白表达及突触素-1(SYN1)和CaMK IIα/AMPKα1/ mTOR通路等相关基因。结果:静息各组大鼠的脑皮层结构呈现年龄增龄性衰老变化,脑皮层SOD表达呈增龄性下降趋势,BDNF表达变化呈增龄性上升趋势,SYN1和CaMK IIα表达水平随增龄性趋势变化不大,AMPKα1和SirT2以及 IP3R、AKT1、mTOR mRNA表达水平随年龄变化呈现中年略上升而老年下降趋势;与静息各组大鼠相比,运动各组大鼠脑皮层神经细胞核排列紧密有序,显微镜下观察细胞核的数量明显增加,运动促进大鼠脑皮层SOD、BDNF和突触素SYN1表达水平增加,其中老年大鼠SOD、BDNF表达水平显著上调(P＜0.01),青年和老年大鼠SYN1表达水平显著上调(P＜0.05),运动上调中年和老年大鼠脑皮层CaMK IIα表达水平上调(P＜0.01),而对青年大鼠CaMK IIα表达水平却是下调(P＜0.01),运动可上调青年大鼠脑皮层的AMPKα1表达水平(P＜0.05),而对中年和老年大鼠AMPKα1的影响不显著,运动均可上调各年龄大鼠脑皮层的SirT2表达水平(P＜0.05),运动上调各年龄大鼠脑皮层的IP3R/AKT1/ mTOR表达水平,其中青年IP3R显著上调(P＜0.01),青年和中年mTOR显著上调(P＜0.01),老年mTOR也显著上调(P＜0.05)。结论:耐力运动通过上调BDNF的表达水平,调控CaMK IIα信号、激活AMPK信号通路和IP3R/AKT1/mTOR信号通路,改善脑皮层的突触可塑性。     

老龄大鼠海马CA_3区神经元的酶细胞化学改变及人参茎叶皂甙的抗衰老作用

本实验应用酶细胞化学方法观察了老龄大鼠海马ＣＡ３区神经元的琥珀酸脱氢酶（ＳＤＨ）,酸性磷酸酶（ＡＣＰａｓｅ）的衰老变化,同时对比观察了人参茎叶皂甙的抗衰老作用。实验数据由彩色显微图像分析系统进行定量分析。实验结果提示老龄时海马ＣＡ３区神经元ＳＤＨ酶活性减弱,ＡＣＰａｓｅ活性增强。而人参茎叶皂甙具有促进神经元ＳＤＨ酶活性,降低ＡＣＰａｓｅ活性的作用。本结果为老龄时学习记忆能力下降及人参茎叶皂甙延缓衰老提供了一定的酶细胞化学变化的依据。     

Norepinephrine levels in the vomeronasal system and their responses to male urine in young and aged female rats

Norepinephrine (NE) levels in brain areas of the vomeronasal system in young (4-5 months) and aged (25-26 months) ovariectomized Sprague-Dawley rats, which were implanted with a 17 beta-estradiol silastic capsule and then exposed to male rat urine, were investigated. The unilateral vomeronasal organ was removed in all rats one week before exposure to urine stimulation. NE levels in the medial nucleus of the amygdala (MA), medial preoptic area (MPOA), ventromedial nucleus of hypothalamus (VMH) and bed nucleus of stria terminalis (BST) were measured. NE concentrations in these brain areas of the surgical side served as the control. Urine collected from young adult male rats was poured into the female's cage at 12:00h and the animals were sacrificed before and 1, 2, or 3 hours after the male urine was given. The NE basal levels in the MA and MPOA of young rats decreased significantly from 13:00h to 15:00h, and those in young rat VMH declined markedly from 13:00h to 14:00h compared to those at 12:00h. No marked alterations in NE basal levels in young rat BST were found. In contrast, no obvious changes in the NE concentrations were observed in these brain areas of old rats. Continuous exposure to male urine did not affect the NE levels in any of these brain areas of young and aged rats. We concluded that (1) the time-dependent fluctuation of the NE basal levels in some brain areas of the vomeronasal system in female rats is age-related, and (2) the NE in all these nuclei of the vomeronasal system is not involved in pheromone-induced effects.     

Intracardiac expression of neutral endopeptidase

Neutral endopeptidase (NEP), a proteolytic enzyme, is known to degrade several peptides which control cardiovascular homeostasis. This is a preliminary study of the pattern of the intracardiac regional expression of the NEP gene in the normal heart, and the age-related changes in this expression in the cardiac regions. The relative abundance of NEP mRNA was determined by RT-PCR in the right atrium (RA), right ventricle (RV), left atrium (LA), left ventricle (LV) and interventricular septum (IVS) in 2-month-old (young) and 12-month-old (advanced-age adult) Wistar Kyoto (WKY) rats. The NEP gene was expressed in all 5 cardiac regions in both age groups. In young rats, the NEP expression level was lowest in the RA; this level was significantly lower than in the septum (p > 0.05). In the advanced-age adult rats, the level was lowest in the LA; this level also was significantly lower than in the septum (p > 0.05). The level in the RA in advanced-age rats was higher than that in the young rats (p < 0.01), but the levels in other regions were not significantly different between the young rats and advanced-age adult rats. Our study showed that the NEP gene was expressed in all cardiac regions of both young rats and advanced-age adult rats. However, the regional distribution of the gene was different in each age group. The region-specific expression of the NEP gene and the age-related regional changes in the expression may be due to the structural and functional characteristics of the various regions.     

不同生殖状态雌性大鼠下丘脑视上核和室旁核内一氧化氮合酶神经元的变化

为了探讨下丘脑视上核 (SON)和室旁核 (PVN)内的一氧化氮 (NO)水平与生殖活动的关系 ,本实验应用 NADPH-黄递酶组织化学和 NOS免疫组织化学 ,研究了妊娠期、哺乳期和正常雌性大鼠 SON和 PVN内 NO合酶 (NOS)神经元的变化规律。结果发现 ,妊娠期大鼠的 NOS神经元数目、胞体截面积和免疫反应产物的灰度值在 PVN分别为 49.8± 3.9、15 2 .4± 14.1μm2 和 15 3.4± 8.9;在 SON分别为 2 9.2± 3.7、 16 3.5± 13.8μm2 和 140 .5± 7.2。 SON和 PVN的前两项指标均显著高于正常大鼠 (P<0 .0 1) ,而灰度值显著低于正常大鼠 (P<0 .0 1)。哺乳期大鼠 PVN的 NOS神经元数目和胞体截面积分别高于正常大鼠 2 8%和 9% ,而灰度值低于正常大鼠 7% ;在 SON,则分别高 75 %、 11%和低 9% ,以上三项指标均有显著性差异 (P<0 .0 1)。哺乳期大鼠 SON的 NOS神经元数目亦显著高于妊娠期大鼠 (P<0 .0 1)。这些结果提示 ,雌性大鼠在妊娠期和哺乳期 ,其 SON和 PVN内的 NOS活性上调     

人参皂苷Rg1对抑郁症大鼠抑郁行为和海马神经元损伤、PKA、PKC的影响

摘要 目的：探讨与分析人参皂苷Rg1对抑郁症大鼠抑郁行为和海马神经元损伤、蛋白激酶A（PKA）与蛋白激酶C（PKC）的影响。方法：抑郁症大鼠48只随机平分为三组-模型组、实验1组、实验2组,每组16只大鼠。实验1组、实验2组每天2次灌胃给药（1 mg/mL、4 mg/mL人参皂苷Rg1）,给药体积为10 mL;模型组以相同方式按体重给予双蒸水。观察与记录鼠抑郁行为和海马神经元损伤、PKA、PKC表达变化情况。结果：实验1组、实验2组治疗第7 d、第14 d的逃避潜伏期都显著低于模型组,实验2组与实验1组相比也显著缩短（P<0.05）。实验1组、实验2组治疗第7 d、第14 d的糖水偏好率高于模型组,实验2组与实验1组相比也显著升高（P<0.05）。实验1组、实验2组治疗第7 d、第14 d的血清5-羟色胺较模型组高,血清皮质酮含量较模型组低,实验2组与实验1组对比也有明显差异（P<0.05）。实验1组、实验2组治疗第7 d、第14 d的海马神经元组织的PKA、PKC蛋白相对表达水平显著低于模型组,实验2组与实验1组相比也显著缩短（P<0.05）。结论：人参皂苷Rg1在抑郁症大鼠的应用能改善抑郁行为,增加糖水偏好率,降低逃避潜伏期,还可提高大鼠的血清5-羟色胺含量,降低血清皮质酮含量,降低海马神经元组织的PKA、PKC蛋白表达水平。     

Effect of Acute Stress on Hippocampal Glutamate Levels and Spectrin Proteolysis in Young and Aged Rats

Abstract: Aging in rats is associated with a loss of hippocampal neurons, which may contribute to age-related cognitive deficits. Several lines of evidence suggest that stress and glucocorticoids may contribute to age-related declines in hippocampal neuronal number. Excitatory amino acids (EAAs) have been implicated in the glucocorticoid endangerment and stress-induced morphological changes of hippocampal neurons of young rats. Previously, we have reported that acute immobilization stress can increase extracellular concentrations of the endogenous excitatory amino acid, glutamate, in the hippocampus. The present study examined the effect of an acute bout of immobilization stress on glutamate levels in the hippocampus and medial prefrontal cortex of young (3–4-month) and aged (22–24-month) Fischer 344 rats. In addition, the effect of stress on spectrin proteolysis in these two brain regions was also examined. Spectrin is a cytoskeleton protein that contributes to neuronal integrity and proteolysis of this protein has been proposed as an important component of EAA-induced neuronal death. There was no difference in basal glutamate levels between young and old rats in the hippocampus or medial prefrontal cortex. During the period of restraint stress a modest increase in glutamate levels in the hippocampus of young and aged rats was observed. After the termination of the stress procedure, hippocampal glutamate concentrations continued to rise in the aged rats, reaching a level approximately five times higher than the young rats, and remained elevated for at least 2 h after the termination of the stress. A similar pattern was also observed in the medial prefrontal cortex with an augmented post-stress-induced glutamate response observed in the aged rats. There was no increase in spectrin proteolysis in the hippocampus or medial prefrontal cortex of young or aged rats after stress or under basal nonstress conditions. The enhanced poststress glutamate response in the aged rats may contribute to the increased sensitivity of aged rats to neurotoxic insults.     

Aging effects on the BDNF mRNA and TrkB mRNA expression of the hippocampus in different durations of stress

Brain-derived neurotrophins factor (BDNF) belongs to the neurotrophins family which acts on neuronal survival and growth and has been associated with cognition process. TrkB is the primary signal transduction receptor for BDNF. In the present study, hippocampal BDNF and TrkB mRNA were detected by RT-PCR in 2- and 22-month rats, respectively, which were exposed to different durations of mild stress protocol of 8-day, 21-day and 28-day chronic unpredictable mild stress (CUMS). Observation of exploratory behavior in an open field (OF) test indicated stress levels and changes of spontaneous activity. We demonstrated that CUMS induced decrease of BDNF mRNA in two aged groups, but the increase change of TrkB mRNA compared with those of the control groups. Moreover, the changes of BDNF mRNA and TrkB mRNA measured in both the 21-day and 28-day stress groups represent obvious decrease than those of the 8-day stress groups, and the expression examined in young groups appeared to be higher than those of the aged group, especially in the 28-day stress groups. Results of OF test showed that explicit behaviors in two age groups decreased gradually with the process of stress revealing a depressive state under the stress condition. Meanwhile, the behaviors of young rats seemed to be more active than those of the aged rats, exhibiting weak adaptation to the stress. The study suggested that stress paradigm and aging certainly had effect on the regulation of BDNF mRNA and TrkB mRNA which might be related to damage and protection function of the hippocampus.