右美托咪定改善东莨菪碱导致的老年大鼠认知功能障碍

目的:探讨右美托咪定对东莨菪碱导致的老年大鼠认知功能障碍的影响及可能的作用机制。方法:20月龄老年雄性SD大鼠随机分为3组(n=15):东莨菪碱组(Sco组),东莨菪碱+右美托咪定组(Dex组),对照组(Con组)。Sco组给予东莨菪碱剂量为0.8 mg/kg,Dex组给予东莨菪碱0.8 mg/kg+右美托咪定20μg/kg,Con组给予等体积生理盐水。给药后2 h进行Morris水迷宫测试。所有测试结束后测定海马组织内氧化应激反应,选取指标为SOD,MDA;利用ELISA方法测定海马TNF-α,IL-1β含量。结果:Morris水迷宫结果显示,与Sco组相比,Dex组在第3、4天时,大鼠的逃避潜伏时间明显缩短(P0.05),平台区域的探索时间延长(P0.05)。与Sco组相比,右美托咪定干预后,Dex组海马区域SOD含量明显升高,MDA含量明显降低(P0.05),并且减轻了炎症因子TNF-α,IL-1β含量。结论:右美托咪定可有效减轻东莨菪碱导致的老年大鼠认知功能障碍,其机制可能涉及右美托咪定在大鼠海马区域的抗氧化应激和抗炎症反应。     

右美托咪定通过抑制线粒体凋亡水平缓解大鼠脑缺血后记忆障碍的实验研究

摘要 目的：探右美托咪定缓解缺血性脑损伤记忆障碍大鼠记忆功能的作用机制。方法：选择雄性SD大鼠36只,随机分为三组,分别为：假手术组（12只）、缺血性脑损伤模型组（12只）、右美托咪定组（12只）,除假手术组外其余动物均采用双侧颈动脉结扎术建立慢性脑缺血模型。假手术组和模型组给予生理盐水静注,右美托咪定组给予右美托咪定0.5 μg /kg,静注,均在15 min内滴完。比较大鼠给药前和给药后4 w的记忆情况以及线粒体凋亡因子Bcl-2、Cleaved Caspase-3、Caspase-9的表达水平。结果：（1）与假手术组相比,模型组和右美托咪定组大鼠逃逸潜伏期明显增高（P＜0.05）,右美托咪定组逃逸潜伏期与模型组相比有显著降低（P＜0.05）;与假手术组相比,模型组和右美托咪定组大鼠游泳路程明显延长（P＜0.05）,右美托咪定组游泳路程与模型组相比有显著降低（P＜0.05）;（2）与假手术组相比,模型组和右美托咪定组大鼠海马区部分凋亡因子Bcl-2,Cleaved Caspase-9,Cleaved Caspase-3的蛋白表达均有明显提升（P＜0.05）;与模型组相比,右美托咪定组在给药4 w后上述蛋白的表达有明显降低（P＜0.05）。结论：右美托咪定对脑缺血记忆障碍大鼠的记忆功能有显著改善作用,其作用机制可能与抑制线粒体凋亡水平有关,具体信号通路还有待进一步探索。     

右美托咪定对异丙酚麻醉所致新生大鼠脑损伤的保护作用及机制

高浓度的异丙酚可导致动物和人类发生脑损伤,而右美托咪定对多种脑损伤动物模型具有一定的神经保护作用。为了考察右美托咪定对异丙酚麻醉所致新生大鼠脑损伤的保护作用及机制,本研究对7日龄清洁级SD大鼠分别腹腔注射异丙酚(60 mg/kg)、右美托咪定(80μg/kg)和异丙酚(60 mg/kg)+右美托咪定(80μg/kg)。Morris水迷宫实验发现高剂量的异丙酚可显著增加大鼠的逃避潜伏期并减少穿越平台次数,然而右美托咪定预处理则可显著降低大鼠的逃避潜伏期并提高穿越平台次数(p<0.05)。异丙酚单独处理导致大鼠的海马神经元细胞凋亡程度显著增加,而右美托咪定预处理则可显著抑制神经元细胞的凋亡(p<0.05)。异丙酚单独处理可显著下调PSD95蛋白的表达,但右美托咪定预处理则可有效抑制PSD95蛋白的下调(p<0.05)。高剂量的异丙酚可明显下调大鼠海马组织P13K、Akt和GSK-3βmRNA的表达,而右美托咪定预处理则可抑制P13K、Akt和GSK-3βmRNA的下调。此外,右美托咪定预处理可显著提高p-Akt/Akt和p-GSK-3β/GSK-3β蛋白比值。本研究表明,右美托咪定可有效抑制异丙酚诱导的神经元细胞凋亡,改善大鼠的学习和记忆能力。右美托咪定的神经保护作用与其对PI3K/AKT/GSK-3β信号通路的激活有关。     

右美托咪定抑制脾切除术后老年大鼠蓝斑nNOS、c-Fos和relaxin-3表达的增加

目的 观察右美托咪定(dexmedetomidine,Dex)对脾切除术后老年大鼠蓝斑神经源性一氧化氮合酶(nNOS)、c-Fos和松驰素-3(relaxin-3)表达的影响,探讨Dex改善手术创伤应激的可能机制.方法 清洁级18月龄SD雄性老年大鼠72只,体重500～600 g,随机分生理盐水组,脾切除模型组,Dex...     

不同剂量右美托咪定治疗对大鼠术后神经功能及Keap1/Nrf2/ARE信号通路的影响

摘要 目的：探讨不同剂量右美托咪定治疗对大鼠术后神经功能及Keap1/Nrf2/ARE信号通路的影响。方法：60只SD大鼠随机分为假手术组（n=12）、脑缺血再灌注组（n=12）、低剂量右美托咪定组（n=12）、中剂量右美托咪定组（n=12）、高剂量右美托咪定组（n=12）,建立脑缺血模型,开展前瞻性研究。假手术组仅接受假手术而不造成脑缺血,术中持续静脉泵注生理盐水;脑缺血再灌注组维持脑缺血片刻,缺血即刻持续静脉泵注生理盐水;低、中、高剂量右美托咪定组脑缺血即刻静脉输注右美托咪定,首次剂量分别为6 μg/kg、60 μg/kg、600 μg/kg,剩余剂量分别以0.05 μg/kg/min、0.5 μg/kg/min、5 μg/kg/min持续静脉泵注。比较各组大鼠神经功能、炎症因子水平、氧化应激指标及Keap1/Nrf2/ARE表达。结果：与假手术组相比,低剂量右美托咪定组、中剂量右美托咪定组、高剂量右美托咪定组、脑缺血再灌注组Longa评分依次升高;与脑缺血再灌注组相比,低剂量右美托咪定组、中剂量右美托咪定组、高剂量右美托咪定组脑梗死体积、脑梗死体积所占百分比依次升高（P<0.05）。与假手术组相比,低剂量右美托咪定组、中剂量右美托咪定组、高剂量右美托咪定组、脑缺血再灌注组白介素6（IL-6）、白介素1β（IL-1β）、肿瘤坏死因子-α（TNF-α）水平依次升高（P<0.05）。与假手术组相比,低剂量右美托咪定组、中剂量右美托咪定组、高剂量右美托咪定组、脑缺血再灌注组神经元特异性烯醇化酶（NSE）、丙二醛（MDA）水平依次升高,超氧化物歧化酶（SOD）水平依次降低（P<0.05）。与假手术组相比,低剂量右美托咪定组、中剂量右美托咪定组、高剂量右美托咪定组、脑缺血再灌注组Keap1/Nrf2/ARE表达依次降低（P<0.05）。结论：低剂量右美托咪定能够保护脑缺血再灌注大鼠术后神经功能,主要通过减轻炎症反应和氧化应激来起作用,其作用机制可能与激活Keap1/Nrf2/ARE信号通路有关。     

右美托咪定通过激活海马α2肾上腺素能受体改善大鼠酒精戒断症状

本文旨在研究α₂肾上腺素能受体激动剂右美托咪定对酒精依赖大鼠戒断症状的影响及作用机制,以期为酒精戒断综合征(alcohol withdrawal syndrome, AWS)的治疗提供科学依据。成年Sprague-Dawley (SD)雄性大鼠连续28 d饮用6%酒精水溶液建立饮酒模型,然后停止饮酒以诱导AWS。用酶联免疫吸附法测定大鼠脑组织蓝斑核及海马去甲肾上腺素的含量。在大鼠AWS显著时分别腹腔注射5、10、20μg/kg右美托咪定,并记录戒断症状变化,部分大鼠预先在海马注射α₂肾上腺素能受体拮抗剂育亨宾。结果显示,与对照组相比,酒精戒断6 h组大鼠AWS评分和再次饮酒量显著提高,末次饮酒组和戒断6 h组海马及蓝斑核去甲肾上腺素含量显著升高。右美托咪定干预后,戒断6 h组AWS评分及海马去甲肾上腺素含量均显著降低,而育亨宾可以逆转右美托咪定的上述作用。以上结果提示,右美托咪定可能通过激活海马α₂肾上腺素能受体改善酒精依赖大鼠戒断症状。     

右美托咪定对大鼠不同时间脑缺血再灌注损伤保护作用

为了研究右美托咪定对大鼠不同时间脑缺血再灌注损伤的影响,探讨对大鼠脑缺血再灌注损伤保护作用的最佳时间,本研究将7～8周的SPF级雄性SD大鼠80只(体质量(120±10) g)随机分为8组(每组10只):假手术组(Sham组)、缺血再灌注损伤(Zea-Longa法MCAO模型)对照组(IR组)、缺血再灌注损伤+生理盐水组(IR+NS组),其余5组为不同时间缺血再灌注损伤+右美托咪定(不同时间IR+Dex组),这5组分别于缺血后10 min、30min、1 h、2h、3 h恢复脑部血流,同时输注浓度为1.0μg/kg的右美托咪定,输注时间均为1 h。于缺血再灌注后分别用平衡木法测定各组大鼠的的运动功能。ELISA检测各组大鼠脑组织中的NF-κB、TNF-α以及炎症因子IL-1β。RT-qPCR检测糖基化终末产物受体(RAGE)和Toll样受体4 (TLR4) mRNA的水平。Sham组大鼠运动功能没有受影响,IR组与IR+NS组大鼠运动功能明显低于IR+Dex组,有极显著性差异(p0.01),但是IR+Dex各组的大鼠运动功能也各有差异:10 min IR+Dex组和30 min IR+Dex组与Sham组并没有统计学差异。1h、2h和3 h IR+Dex组大鼠的运动功能与严重下降。IR组与IR+NS组RAGE和TLR4mRNA表达均显著高于Sham组和IR+Dex各组(p0.05),而IR+Dex各组中,缺血再灌注损伤时间越长,表达越高(p0.05)。IR组、IR+NS组和IR+Dex各组大鼠血清NF-κB、TNF-α和IL-1β水平均显著高于Sham组,但IR+Dex各组NF-κB、TNF-α和IL-1β的水平显著低于IR组、IR+NS组(p0.05)。本研究表明,右美托咪定对大鼠脑缺血再灌注损伤具有保护作用,但受时间限制,脑缺血再灌注损伤的时间越长,其保护作用越弱。     

刺五加胶囊改善抑郁大鼠学习记忆能力及对海马BDNF 表达的影响

目的:探讨刺五加胶囊对抑郁大鼠学习记忆能力及对海马BDNF表达的影响。方法:SD大鼠随机分为正常组、模型组和刺五加胶囊低、中、高剂量组,21d慢性轻度不可预见性应激刺激法(CUMS)制备大鼠抑郁模型,对照组给予生理盐水1ml灌胃,刺五加胶囊低、中、高剂量组分别给予刺五加胶囊(200mg/kg,400mg/kg,800mg/kg)灌胃,取大鼠海马组织。分别采用Morris水迷宫法和免疫组织化学法观察大鼠大鼠学习记忆能力及对海马脑源性神经生长因子(BDNF)表达。结果:刺五加胶囊低剂量组能升高海马组织中BDNF的表达(P<0.05,P<0.01),降低大鼠逃避潜伏期(EL)时间,提高大鼠空间探索时间(SET)(P<0.05,P<0.01)。结论:刺五加胶囊能升高抑郁大鼠海马组织BDNF的表达,提升抑郁大鼠学习记忆能力。     

右美托咪定的临床麻醉应用进展

右美托咪定(dexmedetomidine,Dex)是高选择性α2-肾上腺素受体激动剂,具有镇静、镇痛、抑制交感神经活性、无呼吸抑制等药理性质。多项研究证实:围术期或ICUs住院期间给予患者右美托咪定,可以增加患者机械通气耐受力,减少机械通气时间,改善患者病情恢复,减少呼吸抑制,稳定血流动力学,减少麻醉剂用量及降低麻醉剂不良反应发生率,抑制应激反应,保护肺脏、神经功能、心脏功能,降低谵妄发生率,抗寒颤等作用特点。虽然右美托咪定存在心动过缓及低血压等不良反应,故应控制给药速度、剂量,合理用药在以便循环波动可控范围内。目前,右美托咪定可用于重症监护病房(ICUs)、全身麻醉、区域麻醉、小儿麻醉、日间手术及无痛检查等辅助用药。本文主要对右美托咪定的临床麻醉应用做以下介绍。     

IFN-γ参与右美托咪定在单关节炎大鼠模型中的镇痛作用

目的:探讨IFN-γ是否参与了右美托咪定在大鼠单关节炎模型中的镇痛作用。方法:选用完全弗氏佐剂(CFA)诱导的大鼠单关节炎模型,应用Von Frey纤毛检测大鼠造模以后以及造模并且鞘内连续给予右美托咪定后大鼠后足机械痛敏的变化。应用免疫荧光组织化学实验检测大鼠脊髓背角IFN-γ的定位;应用蛋白质免疫印迹检测大鼠脊髓背角IFN-γ表达的变化。结果:大鼠单关节炎模型建立后,脊髓背角IFN-γ的表达显著上调;大鼠脊髓IFN-γ定位于脊髓背角浅层;鞘内连续给予右美托咪定抑制了单关节炎大鼠的机械痛敏,并且减少了单关节炎大鼠脊髓背角IFN-γ的表达。结论:脊髓背角IFN-γ的表达水平与右美托咪定对单关节炎大鼠的镇痛作用有关。     

负重爬梯与有氧跑台运动对糖尿病大鼠学习记忆能力的影响及其机制探讨

目的：研究负重爬梯与有氧跑台运动对糖尿病大鼠学习记忆能力的改善效果并探索其可能分子机制。方法：40只雄性大鼠,随机分为正常对照组（NC）、糖尿病对照组（DC）、糖尿病负重爬梯组（DL）和糖尿病有氧跑台组（DA）,以单次腹腔注射链脲佐菌素构建糖尿病大鼠模型。DL组在晚上进行负重爬梯训练,10次/组×3组/天,每次间歇2 min,6天/周×6周;DA组在同一时间进行20 m/min的跑台训练,30 min/d。于造模成功和运动干预结束后采用Morris水迷宫检测大鼠的学习记忆能力;第2次水迷宫测试结束后断颈处死大鼠,采用RT-QPCR法检测大鼠海马内脑源性神经营养因子（BDNF）、TRKB、CREB mRNA表达水平。结果：与NC组相比,DC组大鼠海马BDNF、CREB基因表达显著下降,学习记忆能力显著降低。与DC组相比,DL和DA组大鼠海马BDNF、CREB基因表达显著上调,学习能力显著提高;DL大鼠海马TrkB基因显著上调,大鼠空间记忆能力显著改善,而DA组大鼠海马TrkB基因无显著变化,大鼠空间记忆能力无改善,与DA组相比,DL组大鼠海马TRKB、CREB基因显著上调。结论：有氧跑台运动与负重爬梯运动介导BDNF/TrkB/CREB信号通路对糖尿病大鼠的学习能力均有促进作用,而负重爬梯运动对糖尿病大鼠记忆能力的改善优于有氧运动方式。     

Propofol exposure during early gestation impairs learning and memory in rat offspring by inhibiting the acetylation of histone

Propofol is widely used in clinical practice, including non‐obstetric surgery in pregnant women. Previously, we found that propofol anaesthesia in maternal rats during the third trimester (E18) caused learning and memory impairment to the offspring rats, but how about the exposure during early pregnancy and the underlying mechanisms? Histone acetylation plays an important role in synaptic plasticity. In this study, propofol was administered to the pregnant rats in the early pregnancy (E7). The learning and memory function of the offspring were tested by Morris water maze (MWM) test on post‐natal day 30. Two hours before each MWM trial, histone deacetylase 2 (HDAC2) inhibitor, suberoylanilide hydroxamic acid (SAHA), Senegenin (SEN, traditional Chinese medicine), hippyragranin (HGN) antisense oligonucleotide (HGNA) or vehicle were given to the offspring. The protein levels of HDAC2, acetylated histone 3 (H3) and 4 (H4), cyclic adenosine monophosphate (cAMP) response element‐binding protein (CREB), N‐methyl‐D‐aspartate receptor (NMDAR) 2 subunit B (NR2B), HGN and synaptophysin in offspring's hippocampus were determined by Western blot or immunofluorescence test. It was discovered that infusion with propofol in maternal rats on E7 leads to impairment of learning and memory in offspring, increased the protein levels of HDAC2 and HGN, decreased the levels of acetylated H3 and H4 and phosphorylated CREB, NR2B and synaptophysin. HDAC2 inhibitor SAHA, Senegenin or HGN antisense oligonucleotide reversed all the changes. Thus, present results indicate exposure to propofol during the early gestation impairs offspring's learning and memory via inhibiting histone acetylation. SAHA, Senegenin and HGN antisense oligonucleotide might have therapeutic value for the adverse effect of propofol.     

Chronic Unpredictable Stress Before Pregnancy Reduce the Expression of Brain-Derived Neurotrophic Factor and N-Methyl-D-Aspartate Receptor in Hippocampus of Offspring Rats Associated with Impairment of Memory

To investigate the effect of stress before pregnancy on memory function and serum corticosterone (COR) levels, as well as the expression of brain-derived neurotrophic factor (BDNF), N-methyl-D-aspartate (NMDA) 2A (NR2A) and 2B (NR2B) receptors in the hippocampus of the offspring rats when they were 2 months postnatally. Adult female Sprague-Dawley (SD) rats were divided randomly into two groups: control group (n = 8) and chronic unpredictable stress (CUS) group (n = 12). All rats were tested in the open field test and sucrose intake test before and after CUS. The memory function of their offspring were tested in the Morris water maze. Serum COR levels were determined by using a standard radioimmunoassay kit. The expression of BDNF, NR2A and NR2B in the hippocampus of the offspring rats were studied by immunoreactivity quantitative analysis and real-time RT-PCR. (1) Following CUS, reduced open field test activity and decreased sucrose consumption were observed relative to controls. (2) The Morris water maze task demonstrated increased escape latency in the offspring rats of CUS group relative to controls (P < 0.01). No-platform probe testing showed reduced crossings for offspring of CUS relative to controls (P < 0.05). (3) CUS induced a significant increase in serum COR levels of the offspring rats (P < 0.01), but no difference was observed in the body or brain weight between the offspring of the two groups. (4) Immunoreactivity quantitative analysis shows that BDNF and NR2B in the offspring of CUS group was decreased in the CA3 and DG regions of the hippocampus compared to the control group offspring, but NR2A levels were not altered between the offspring of the two groups. (5) Real-time RT-PCR demonstrated that BDNF and NR2B mRNAs were significantly decreased in the offspring of the CUS group compared with the control group (P < 0.01). No significant difference in the levels of NR2A mRNA was detected between offspring of CUS and offspring of control groups. In our study, pregestational stress can increase serum corticosterone levels and reduce the expression of BDNF and NR2B in the hippocampus of offspring. These alterations are associated with impairment of memory in the adult offspring. These data suggest that, stress before pregnancy might have a profound influence on brain development of offspring, that may persist into and be manifested in adulthood.     

Depression-Like Effect of Prenatal Buprenorphine Exposure in Rats

Studies indicate that perinatal opioid exposure produces a variety of short- and long-term neurobehavioral consequences. However, the precise modes of action are incompletely understood. Buprenorphine, a mixed agonist/antagonist at the opioid receptors, is currently being used in clinical trials for managing pregnant opioid addicts. This study provides evidence of depression-like consequence following prenatal exposure to supra-therapeutic dose of buprenorphine and sheds light on potential mechanisms of action in a rat model involving administration of intraperitoneal injection to pregnant Sprague-Dawley rats starting from gestation day 7 and lasting for 14 days. Results showed that pups at postnatal day 21 but not the dams had worse parameters of depression-like neurobehaviors using a forced swimming test and tail suspension test, independent of gender. Neurobehavioral changes were accompanied by elevation of oxidative stress, reduction of plasma levels of brain-derived neurotrophic factor (BDNF) and serotonin, and attenuation of tropomyosin-related kinase receptor type B (TrkB) phosphorylation, extracellular signal-regulated kinase (ERK) phosphorylation, protein kinase A activity, cAMP response element-binding protein (CREB) phosphorylation, and CREB DNA-binding activity. Since BDNF/serotonin and CREB signaling could orchestrate a positive feedback loop, our findings suggest that the induction of oxidative stress, reduction of BDNF and serotonin expression, and attenuation of CREB signaling induced by prenatal exposure to supra-therapeutic dose of buprenorphine provide evidence of potential mechanism for the development of depression-like neurobehavior.     

Antioxidants prevent memory deficits provoked by chronic variable stress in rats

Learning and memory deficits occur in depression and other stress related disorders. Although the pathogenesis of cognitive impairment after stress has not been fully elucidated, factors such as oxidative stress and neurotrophins are thought to play possible roles. Here we investigated the effect of treatment with vitamin E (40 mg/kg) and vitamin C (100 mg/kg) on the effects elicited by chronic variable stress on rat performance in Morris water maze. Brain-derived neurotrophic factor (BDNF) immunocontent was also evaluated in hippocampus of rats. Sixty-day old Wistar rats were submitted to different stressors for 40 days (stressed group). Half of stressed group received administration of vitamins once a day, during the period of stress. Chronically stressed rats presented a marked decrease in reference memory in the water maze task as well as a reduced efficiency to find the platform in the working memory task. Rats treated with vitamins E and C had part of the above effects prevented, suggesting the participation of oxidative stress in such effects. The BDNF levels were not altered in hippocampus of stressed group when compared to controls. Our findings lend support to a novel therapeutic strategy, associated with these vitamins, to the cognitive dysfunction observed in depression and other stress related diseases.     

大鼠侧脑室慢性注射CRF致抑郁样变化研究

为了探讨CRF在抑郁症发生发展过程中的作用．对正常大鼠侧脑室慢性注射CRF21天并与慢性非预见性应激刺激21天建立的抑郁症模型大鼠进行比较。运用旷场行为实验（open-field）观察大鼠主动性活动能力．用Morris water Maze法．以训练期的逃避潜伏期为指标检测大鼠空间学习记忆能力。采用HPLC—UV法测定血清皮质醇含量,RT—PCR法检测CRF及其受体mRNA的表达。结果显示：慢性应激21天建立的模型大鼠主动性活动和学习记忆能力均明显下降．血清皮质醇含量显著升高,CRF及其受体R1 mRNA的表达增加。大鼠侧脑室慢性注射CRF21天后．其体重增量、主动性活动和学习记忆能力与慢性应激模型大鼠一样均明显降低。这些工作证明了CRF在抑郁症的发生发展过程中发挥了至关重要的作用．慢性应激导致机体CRF分泌持续增加可能是抑郁症发病的主要原因。     

Coccomyxa Gloeobotrydiformis Improves Learning and Memory in Intrinsic Aging Rats

Declining in learning and memory is one of the most common and prominent problems during the aging process. Neurotransmitter changes, oxidative stress, mitochondrial dysfunction and abnormal signal transduction were considered to participate in this process. In the present study, we examined the effects of Coccomyxa gloeobotrydiformis (CGD) on learning and memory ability of intrinsic aging rats. As a result, CGD treated (50 mg/kg·d or 100 mg/kg ·d for a duration of 8 weeks) 22-month-old male rats, which have shown significant improvement on learning and spatial memory ability compared with control, which was evidently revealed in both the hidden platform tasks and probe trials. The following immunohistochemistry and Western blot experiments suggested that CGD could increase the content of Ach and thereby improve the function of the cholinergic neurons in the hippocampus, and therefore also improving learning and memory ability of the aged rats by acting as an anti-inflammatory agent. The effects of CGD on learning and memory might also have an association with the ERK/CREB signalling. The results above suggest that the naturally made drug CGD may have several great benefit as a multi-target drug in the process of prevention and/or treatment of age-dependent cognitive decline and aging process.     

抑郁症模型大鼠学习记忆能力变化研究

为探讨抑郁症发生发展过程中学习记忆能力的变化模式及其可能机制．分别采用21天慢性非预见性刺激法和嗅球切除法建立的抑郁症模型大鼠．运用旷场行为实验（open—field behavior）检测大鼠主动性活动能力,用Morris水迷宫法检测大鼠空间学习记忆能力,HPLC—UV法测定大鼠血清皮质醇含量。电生理法记录海马CA1区LTP与LTD,观察海马神经元的突触可塑性。结果显示：与对照组相比,两种模型的自主活动性、空间探索兴趣和学习能力都明显降低,而记忆的反馈功能没有明显的变化。同时．两种模型大鼠海马神经细胞的突触可塑性显著下降,血清皮质醇的含量则明显上升。提示两种建模方法均导致大鼠产生抑郁症状和学习能力障碍．但对记忆反馈功能无明显影响。     

慢性应激对大鼠学习记忆能力和海马LTP的影响

目的和方法：本研究采用一种多因素的２１ｄ慢性应激动物模型,以Ｙ迷宫和ＬＴＰ为指标,探讨慢性应激对运动学习记忆能力和海马神经突触可塑性的影响。结果：长期慢性应激使大鼠空间学习记忆能力下降,而且,使中枢海马齿状回ＬＴＰ的诱生受到抑制。结论：慢性应激可能使大鼠海马齿状回神经突触可塑性降低,并进一步影响到学习记忆的功能。