糖尿病大鼠内嗅皮层神经元放电与场电位相干性研究

目的:通过分析神经元放电与场电位的相干性,探讨内嗅皮层神经元放电与场电位的关系。方法:10只成年大鼠随机分2组,一组糖尿病建模,另一组作为对照,记录对照组和糖尿病组大鼠的内嗅皮层神经元放电锋电位和场电位,利用点过程谱分析方法对神经元放电与场电位相干性进行分析对比。结果:糖尿病大鼠麻醉神经元放电与场电位的相干性明显低于对照组(P<0.01)。结论:糖尿病大鼠内嗅皮层神经元功能受到损害。     

情前期与间情期大鼠内侧视前区-下丘脑前区神经元的电活动

在氯化筒箭毒制动的情前期及间情期大鼠上进行实验。用玻璃微电极记录内侧视前区-下丘脑前区(mPOA-AHA)的单位放电。mPOA-AHA 的大多数单位表现连续性或周期性自发放电。情前期大鼠周期性放电单位所占的百分比显著地多于间情期大鼠(P<0.01)。刺激子宫颈部可以使单位放电发生两种反应。一种单位对宫颈刺激发生放电频率增加的反应(宫颈兴奋神经元,CE 神经元),另一种单位则发生放电频率降低的反应(宫颈抑制神经元,CI神经元)。情前期大鼠 CE 与 CI 神经元所占的百分比与间情期大鼠没有明显的差异(P>0.05)。但情前期大鼠的 CE和 CI 神经元多呈现周期性放电,而间情期大鼠的 CE 和 CI 神经元则多呈现连续性放电。这说明 mPOA-AHA 神经元的电活动随生殖周期发生明显的变化。脑室注射去甲肾上腺素(NE)能使 mPOA-AHA 内大多数 CE 神经元对宫颈刺激的兴奋反应暂时受到抑制,而注射 NE 却使大多数 CI 神经元发生抑制解除。这些结果提示 NE 可能有抑制 CE 神经元和刺激 CI 神经元的作用。     

青霉素致痫大鼠海马神经元单位放电特征分析

目的:观察青霉素致痫大鼠海马神经元单位放电特征。方法:24只Wistar雄性健康大鼠,随机分为正常对照组、癫痫模型组各12只。癫痫模型组用青霉素钠按6×106U/kg腹腔注射,观察癫痫发作级别,记录海马神经元单位放电。结果:正常对照组大鼠共记录到24个单位海马神经元放电,放电频率以中低频放电为主,放电形式以单个不均匀放电为主;癫痫模型组共记录到78个单位海马神经元放电,放电频率以高频放电为主,放电形式则以混合型放电为主,癫痫发作程度强。癫痫模型组与正常对照组比较,海马神经元单位放电数、放电频率以及放电形式均有显著性差异(P0.01);结论:青霉素诱导的癫痫模型,海马神经元单位放电数明显增多,放电频率高,并以混合型爆发放电为主。     

用近似熵测量神经放电峰峰间期的复杂性

近似熵是用来测量信号复杂程度的非线性方法。为了研究神经放电序列的复杂性,用该方法及其改进方法对大鼠损伤坐崩神经模型、大鼠脑薄片视上核神经元自发放电模型、背根节自发放电模型峰峰间期以及Rose-Hindmarsh理论神经元模型分叉数据进行了动态测量。结果表明,近似熵可以定量反映多种神经放电序列复杂性的变化,是一种较为有效的复杂性序量方法。     

皮层抑制对大鼠丘脑底核自发放电的影响

目的:观察皮层抑制对正常及帕金森病(PD)大鼠丘脑底核(STN)神经元自发放电的影响。方法:采用玻璃微电极细胞外记录法,观察正常和PD大鼠STN神经元的放电活动及脑内微量注射KCl后,两组大鼠STN神经元放电频率的变化。结果:对照组和PD组大鼠STN神经元放电频率分别为(9.78±0.71)Hz和(23.81±1.08)Hz,PD组大鼠放电频率显著高于对照组(P<0.01),且呈爆发式放电的神经元比例明显高于对照组(P<0.05)。皮层注射KCl后,经过较长的潜伏期,两组大鼠STN神经元放电频率均明显降低,后缓慢恢复。结论:PD大鼠STN神经元放电频率增高,爆发式放电增多,而抑制皮层可使这种异常放电得到改善,提示皮层兴奋性的改变可能是PD中STN活动增强的另一个诱因。     

基于鼠脑海马位置细胞与Q学习面向目标导航

生理学实验表明在鼠脑海马结构中存在的一种具有特异性放电特征的细胞,它在大鼠空间导航和环境认知中起着关键性作用,该特异性神经元被称之为位置细胞。本文将基于位置细胞、运动神经元来构建一种前馈神经网络模型,采用Q学习算法实现大鼠面向目标导航任务。实验结果表明该前馈神经网络模型能快速实现大鼠面向目标导航任务。     

高频刺激丘脑底核对帕金森病大鼠模型纹状体神经元放电的影响

目的:观察高频刺激丘脑底核(STN)对帕金森病(PD)大鼠模型纹状体 (STR)神经元自发放电的影响.方法:应用6-羟基多巴胺(6-OHDA)制备偏侧PD大鼠模型,丘脑底核区插入刺激电极进行高频刺激,采用细胞外单位记录的方法观察STR神经元自发放电频率的改变.结果:正常大鼠刺激后STR神经元反应主要以兴奋型反应为主, PD大鼠STR神经元反应主要以兴奋抑制型为主,且随着刺激时间的延长,抑制持续时间逐渐增加,持续时间与刺激时间密切相关(r=0.94).结论:刺激STN可使PD大鼠纹状体的异常放电得到改善,提示高频电刺激STN可作为一种有效的治疗PD的方法.     

选择性5-HT1A受体拮抗剂WAY-100635增加6-羟多巴胺损毁大鼠杏仁基底外侧核的神经活动

本文采用玻璃微电极细胞外记录法,观察正常大鼠和6-羟多巴胺(6-hydroxydopamine,6-OHDA)损毁黑质致密部大鼠杏仁基底外侧核(basolateral nucleus,BL)神经元电活动的变化,以及体循环给予选择性5-HT1A受体拮抗剂WAY-100635对神经元电活动的影响.结果显示,正常大鼠BL投射神经元和中间神经元的放电频率分别足(O.39±0.04)Hz和(0.83±0.16)Hz,6-OHDA损毁大鼠BL投射神经元和中间神经元的放电频率分别足(0.32±0.04)Hz和(0.53±0.12)Hz,与正常大鼠相比无显著差异.在正常大鼠,所有投射神经元呈现爆发式放电;94%的中间神经元为爆发式放电,6%为不规则放电.在6.OHDA损毁大鼠,85%的投射神经元呈现爆发式放电,15%为不规则放电;86%的中间神经元为爆发式放电,14%为不规则放电,与正常大鼠相比无显著差别.静脉给予0.1 mg/kg体重的WAY-100635不改变正常大鼠和6-OHDA损毁人鼠BL投射神经元和中间神经元的放电频率.然而,0.5 mg/kg体重的WAY-100635却显著降低正常大鼠BL投射神经元的平均放电频率(P<0.01),明显增加6-OHDA损毁大鼠BL投射神经元的平均放电频率(P<0.004).高剂量WAY-100635不影响正常大鼠和6-OHDA损毁大鼠BL中间神经元的平均放电频率.结果表明,黑质多巴胺能损毁后内在和外在的传入调节BL神经元的活动,在正常大鼠和6-OHDA损毁大鼠5-HT1A 受体调节投射神经元的活动,并且在6-OHDA损毁大鼠WAY-100635诱发投射神经元平均放电频率增加.结果提示,5-HT1A 受体在帕金森病情感性症状的产生中起重要作用.     

单次注射人工合成大麻素降低大鼠中脑腹侧背盖区多巴胺能神经元兴奋性北大核心CSCD

大麻成瘾可能维持一生。中脑腹侧背盖区(ventral tegmental area,VTA)作为投射到意识及情绪相关皮层和边缘系统的多巴胺能神经元的主要来源,是奖赏系统的关键部位之一,与药物成瘾密切相关。目前,对于VTA多巴胺能神经元在药物成瘾过程中的作用研究,主要集中在药物成瘾过程中突触可塑性的变化。已有研究表明,大麻素慢性作用5天后,易化了低频电刺激诱导VTA多巴胺能神经元产生突触传递的长时程减弱(long-term depression,LTD)效应,而此过程中多巴胺能神经元兴奋性的变化情况还未见报道。实验中,作者采用离体脑片膜片钳技术,观察单次注射人工合成大麻素HU210对大鼠VTA区多巴胺能神经元兴奋性的影响。结果显示,HU210作用后,神经元基强度增大,平均放电频率降低,其细胞膜电生理特性也发生了改变,表明单次注射人工合成大麻素HU210,降低了VTA多巴胺能神经元的兴奋性,提示神经元内在兴奋性的可塑性改变可能在药物成瘾中发挥作用。     

孕烷醇酮对大鼠缰核痛神经元单位放电活动的影响

目的:观察PGN对大鼠Hb痛神经元放电活动的影响及可能机制.方法:观察腹腔注射PGN对Hb痛神经元单位放电活动的影响.结果:PGN(i.p),大鼠Hb PEN放电受到抑制,PIN放电频率增加.预先i.p Bic可阻断PGN对Hb痛神经元放电活动的影响.结论:PGN具有降低大鼠Hb痛神经元对体外刺激敏感性的作用,其机制可能是由脑内的GABAA受体介导的.     

慢性吗啡给予、戒断及再给药过程中大鼠海马感觉门控的动态变化

药物成瘾被认为是药物长期作用于脑而产生的一种慢性复吸性脑疾病,长期反复的药物（如吗啡）滥用会导致一系列严重后果,如药物依赖、药物耐受、强迫性药物寻求等。本实验利用条件化位置偏好（conditioned place preference,CPP）模型来检测大鼠对吗啡依赖和心理渴求等过程;采用双声刺激听觉诱发电位来研究大鼠在慢性吗啡给予、戒断以及再给药过程中海马感觉门控（N40）的动态变化。吗啡组大鼠注射吗啡（10mg／kg,i．p．）12d,经历第一次戒断12d,再次注射吗啡（2．5mg／kg,i．P．）1d,之后经历第二次戒断2d;对照组大鼠注射同体积生理盐水,其余实验条件与吗啡组相同。CPP实验表明,这种药物给予方法促使大鼠对吗啡产生药物依赖和心理渴求。双声刺激诱发电位实验表明,吗啡组大鼠在吗啡给予期间海马感觉门控受到损伤;第一次戒断期的第1～2天海马感觉门控能力减弱,第3天增强,第4～12天逐渐恢复到正常水平;再次给予吗啡后海马感觉门控能力与对照组相比显著降低,并且随后2d的戒断期内海马感觉门控能力也一直保持较低水平,表明再次给药使大鼠海马感觉门控对吗啡更加敏感化。结果提示,长期反复的吗啡给予及再给药干扰了海马的感觉门控能力,吗啡成瘾对大脑可能产生长期影响。     

Decreased mitochondrial DNA copy number in the hippocampus and peripheral blood during opiate addiction is mediated by autophagy and can be salvaged by melatonin

Drug addiction is a chronic brain disease that is a serious social problem and causes enormous financial burden. Because mitochondrial abnormalities have been associated with opiate addiction, we examined the effect of morphine on mtDNA levels in rat and mouse models of addiction and in cultured cells. We found that mtDNA copy number was significantly reduced in the hippocampus and peripheral blood of morphine-addicted rats and mice compared with control animals. Concordantly, decreased mtDNA copy number and elevated mtDNA damage were observed in the peripheral blood from opiate-addicted patients, indicating detrimental effects of drug abuse and stress. In cultured rat pheochromocytoma (PC12) cells and mouse neurons, morphine treatment caused many mitochondrial defects, including a reduction in mtDNA copy number that was mediated by autophagy. Knockdown of the Atg7 gene was able to counteract the loss of mtDNA copy number induced by morphine. The mitochondria-targeted antioxidant melatonin restored mtDNA content and neuronal outgrowth and prevented the increase in autophagy upon morphine treatment. In mice, coadministration of melatonin with morphine ameliorated morphine-induced behavioral sensitization, analgesic tolerance and mtDNA content reduction. During drug withdrawal in opiate-addicted patients and improvement of protracted abstinence syndrome, we observed an increase of serum melatonin level. Taken together, our study indicates that opioid addiction is associated with mtDNA copy number reduction and neurostructural remodeling. These effects appear to be mediated by autophagy and can be salvaged by melatonin.     

The effect of an endogenous compound 1-methyl-1,2,3,4,-tetrahydroisoquinoline on morphine-induced analgesia, dependence and neurochemical changes in dopamine metabolism in rat brain structures.

1,2,3,4-Tetrahydroisoquinolines, among them the most interesting neuroprotective substance, an inhibitor of MAO, 1-methyl-1,2,3,4-tetrahydroisoquinoline (1MeTIQ), are endogenous compounds present in the central nervous system of mammals and humans. In this study, we investigated the effect of 1MeTIQ on morphine-induced analgesia, tolerance and abstinence syndrome as well as its effect on morphine-induced changes in dopamine metabolism in rat brain structures (nucleus accumbens, striatum, substantia nigra) using HPLC methodology. The experiments were carried out on male Wistar rats. Morphine analgesia was measured in the "hot-plate" test. To induce tolerance, morphine was given chronically (20 mg/kg i.p.) alone or following 1MeTIQ (50 mg/kg i.p.) injection. The development of dependence was assessed in the naloxone (2 mg/kg i.p.) precipitation test, after 10 days of morphine administration. The behavioral studies have shown that an endogenous compound, 1MeTIQ produced strong potentiation of morphine analgesia, prevented the development of morphine tolerance and inhibited expression of morphine abstinence syndrome in morphine-dependent rats. In neurochemical studies, we have demonstrated that 1MeTIQ antagonized morphine-induced changes in dopamine metabolism observed in rat brain structures. The main finding of this study was demonstration for the first time of an anti-abuse effect of an endogenous compound, 1MeTIQ, and its efficiency in counteracting morphine-induced addiction in the way useful from clinical point of view. The obtained results suggested a possibility of clinical application of 1MeTIQ in morphine addiction.     

阿司匹林可抑制吗啡引起的HT22 细胞Wnt通路的激活

目的:研究阿司匹林对吗啡引起的Wnt通路的上调的影响。方法:在大鼠海马神经元元细胞系HT22细胞上建立了慢性吗啡成瘾模型,然后运用免疫荧光技术和Western blot技术检测wnt通路中β-catenin蛋白的表达变化变化,同时应用报告基因技术检测Wnt通路下游转录因子的活性。结果:在慢性吗啡成瘾模型组,β-catenin蛋白的表达显著增加,而在接受了6 h的阿司匹林预处理的慢性吗啡成瘾模型组,β-catenin蛋白的表达受到了显著的抑制。结论:阿司匹林可抑制吗啡引起的Wnt/β-catenin通路水平的过表达。     

多巴胺对吗啡成瘾大鼠海马区痛觉调制的研究进展

当今社会日益增长的吗啡等阿片类药物的非法滥用已经严重威胁到人类的健康。然而,迄今为止尚没有找到能够较为有效的防治阿片成瘾的方法。目前研究已知,阿片成瘾的形成所涉及的脑区及核团包括中脑腹侧被盖区(VTA)、伏隔核(NAc)、海马等,其成瘾涉及的神经递质系统包括多巴胺、5-羟色胺等。本文将就多巴胺及海马在痛觉调制及药物成瘾过程中的作用进行综述,为吗啡的成瘾与戒断的进一研究及治疗提供线索。     

Co-administration of dextromethorphan during pregnancy and throughout lactation significantly decreases the adverse effects associated with chronic morphine administration in rat offspring.

In this study, we have focused our investigation of the facts whether co-administration of a NMDA antagonist dextromethorphan (DM) with morphine during pregnancy and throughout lactation could prevent the adverse effects associated with chronic morphine administration in rat offspring. Adult female Sprague-Dawley rats were randomly separated into four groups and were received subcutaneous injection of either saline, morphine, morphine + dextromethorphan or dextromethorphan twice a day and progressively increased 1 mg/kg at 7-day intervals from a beginning dose of 2 mg/kg for both morphine and dextromethorphan. The rats were mated between days 7 and 8. Administration of drugs was continued during pregnancy. After rat offspring were born, the doses of morphine or dextromethorphan injected into the maternal rats were increased by 1 mg/kg every two weeks till the offspring were 30 day old. The results showed that mortality of morphine group is much higher than control group. The offspring of morphine group weighed significantly less than control group on postnatal day 14 (p14), p30 or p60. The antinociceptive effect of morphine on p14 rats was reduced in the morphine group and indicated the development of morphine tolerance. The hippocampal NMDA receptor densities have been shown decreased on p14 rats. The precipitated withdrawal symptoms were assessed on p7 rats. Rats in morphine group showed greater frequency of abdominal stretch and wet dog shake in 2 hr than control group. On the other hand, co-administration of DM with morphine effectively prevented all these adverse effects of morphine to the offspring rats. DM co-administered with morphine also partially prevented the development of morphine tolerance in maternal rats. If this effect of dextromethorphan is applied to clinical pregnant patients with morphine addiction or chronic pain, it will have a great value for the benefit of their children.     

Brain lipidomic changes after morphine,cocaine and amphetamine administration — DESI — MS imaging study

Drug addiction is a complex disorder, evoking significant changes in the proteome of the central nervous system. To check if there are also changes in the lipidomic profiles we used desorption electrospray-MS technique for imaging of the brain slices of rats exposed to morphine, cocaine and amphetamine. Our investigations showed alternative regulation of selected lipid's levels in the central nervous system structures, under the influence of applied drugs. Results of our investigations can show changes in the brain treated with drugs of abuse in the new light, indicating role of the lipids in the addiction development.     

In vivo binding of 3H-etorphine in morphine-dependent rats

The opiate agonist 3H-etorphine was used to search for potential changes in in vivo opiate receptor binding in rats following chronic exposure to morphine sulfate. A rapid filtration method was employed to allow assessment of in vivo binding; receptor dissociation in vitro following in vivo labeling was also measured. No significant differences in total binding were seen with addicted animals, naive controls and naive animals pre-injected with morphine, at two different 3H-etorphine doses. In vitro dissociation under several conditions also yielded no differences. However, the rate of in vitro dissociation in the presence of both Na+ and a guanine nucleotide showed a small but significant decrease in dependent animals, suggesting a possible impairment of receptor effector coupling with morphine addiction.     

Morphine addiction and withdrawal alters brain peptide concentrations

This study demonstrates that, during morphine addiction and withdrawal in rats profound alterations in the concentrations of a variety of brain peptides occur. Somatostatin, cholecystokinin, neurotensin and substance P concentrations increased during morphine addiction. Naloxone-induced withdrawal decreased brain concentrations of TRH, somatostatin, neurotensin and substance P. Naloxone alone decreased thalamic substance P and neurotensin concentrations. Vasoactive intestinal peptide concentrations were unaltered by any of the treatments. The fall in the tissue concentration of somatostatin during naloxone-induced withdrawal correlated well with the fall in the circulating growth hormone, suggesting that this could be secondary to somatostatin release. Our data support the hypothesis that brain peptides, acting locally in the brain as neuromodulators, play an important role in the genesis of the syndromes of morphine addiction and withdrawal.