毕赤酵母表达的neurturin对恒河猴帕金森氏病模型中黑质多巴胺能神经元的保护作用

帕金森氏病(PD)是由于多巴胺能神经元变性、坏死,导致黑质-纹状体系统的多巴胺含量下降而引起的一种神经系统退行性疾病,目前还没有一种很好的方法能使之治愈.Neurturin（NTN）能特异地作用于中脑多巴胺能神经元,对该类神经元具营养和保护作用.经静脉注射1-甲基-4-苯基-1,2,3,6-四氢吡啶(MPTP)诱导恒河猴产生帕金森氏病模型,并在NTN治疗组,注射MPTP之前48 h脑室内注射重组毕赤酵母表达的人NTN 1 mg. 结果表明：模型组猴均逐渐出现了PD症状,而NTN治疗组猴,PD症状比较轻或不明显;荧光分光光度法测定MPTP模型组猴黑质、壳核和尾状核多巴胺（DA）、5-羟色胺（5-HT）和5-羟吲哚乙酸（5-HIAA）的含量结果与正常对照组相比均显著降低,NTN治疗组猴的黑质、壳核和尾状核中的DA、5-HT和5-HIAA与对照组相比无显著性差异,而与模型组相比,DA、5-HT和5-HIAA含量均明显增加;光镜检查MPTP模型组猴黑质神经元细胞明显脱失,而NTN治疗组猴黑质神经元细胞丢失不明显,与正常对照组猴无差别.上述结果表明,制备的重组人NTN在恒河猴体内能保护中脑黑质多巴胺能神经元不受MPTP的损伤,使其DA含量及多巴胺能神经元维持正常,在MPTP存在下没有发生PD症状.     

6-OHDA制备的帕金森病大鼠黑质神经元的超微结构改变

目的观察6-羟多巴胺(6-OHDA)单侧注射制备的帕金森病(PD)大鼠多巴胺(DA)能神经元的超微结构改变。方法单侧微量注射6-OHDA制备PD大鼠模型,用免疫荧光组织化学方法观察正常侧与6-OHDA注射侧黑质酪氨酸羟化酶(TH)阳性神经细胞及神经纤维的变化;并利用免疫电镜技术观察大鼠正常侧与注射侧黑质致密部DA能神经元的超微结构。结果免疫荧光法显示注射侧黑质致密部TH阳性细胞数和网状部TH阳性纤维面积与正常侧的百分比平均值分别为21.83%,23.19%。免疫电镜显示:TH免疫反应阳性产物表达于PD大鼠正常侧DA能神经元的高尔基复合体质膜面及胞质内,电子密度较高,注射侧很少见或几乎未见,且注射侧线粒体嵴有不同程度的溶解,呈空泡样变或髓样变,粗面内质网脱颗粒。结论6-OHDA可引起DA能神经元发生凋亡的超微结构改变。     

6-羟多巴胺脑内注射制备帕金森病大鼠模型的研究

目的　通过向大鼠脑内单侧、双点、间隔注射 6 OHDA ,建立PD动物模型。方法　取SD大鼠 4 0只 ,随机分为实验组 35只和对照组 5只。实验组大鼠右侧黑质致密部和内侧前脑束注射 6 OHDA ,两次注射间隔一周 ,对照组大鼠注射人工脑脊液 ,观察经阿朴吗啡诱导后大鼠的行为及黑质DA神经元形态学变化。结果　①实验组有 2 3只恒定左转鼠且旋转圈数 >2 10r 30min ,被认为是成功的PD模型 ,占 6 7 7% ;有 1只动物死亡 ,占 2 9%。②对PD大鼠模型的免疫组化研究发现 ,注射侧黑质区多巴胺神经元较健侧和对照组显著减少。结论　利用向脑内单侧、双点、间隔注射 6 OHDA制备PD大鼠模型 ,结果稳定可靠 ,动物死亡率低 ,为PD动物模型的建立提供了新方法。     

帕金森病小鼠模型行为学检测方法的比较研究

目的比较目前常用的5种帕金森病(PD)小鼠模型行为学检测方法在PD研究中的作用。方法用MPTP建立C57BL小鼠PD模型,通过行为学检测(自主活动计数、滚轴实验、游泳实验、爬杆实验、悬挂实验)、免疫组织化学和荧光分光光度法,对比5种行为学检测方法的平均数与变异系数,观察MPTP对PD小鼠模型的行为学、黑质多巴胺(DA)神经元和纹状体酪氨酸羟化酶免疫反应阳性(TH-ir)神经纤维以及纹状体DA水平的影响。结果给与MPTP后,小鼠行为学计数降低,爬杆实验未能得到检测结果,悬挂实验变异系数很高,结果有明显的偶然性,滚轴实验结果变异系数中等,平均数呈现一定的上升趋势,自主活动计数中移动与站立和游泳实验的平均数则呈现明显的下降趋势,变异系数很低,而黑质DA神经元数目减少约58%,纹状体TH-ir神经纤维密度减低,纹状体DA水平明显降低约88%,两组相比差异有显著性(P<0.01)。结论MPTP所致的C57BL小鼠的神经病理、生化改变与PD患者近似,自主活动计数和游泳实验优于其他行为学检测方法。     

帕金森病模型大鼠脑内多巴胺与铁含量的关系

实验采用原子吸收分光光度法,快速周期伏安法,高效液相电化学检测等方法,研究以6－羟基多巴（6－OHDA）制备的帕金森病（PD）模型大鼠黑质内铁含量的变化。铁对多巴胺（DA）能神经元的直接毒性作用以及铁离子螯合剂甲磺酸去铁胺的神经保护作用。结果发现：（1）PD大鼠损毁侧黑质内铁含量为非标准PD大鼠的3倍左右;（2）PD大鼠损毁侧纹状体内铁含量无明显改变;（3）单纯注射6－OHDA的大鼠其损毁侧纹状体（CPu)DA的释放量和含量均明显降低;（4）侧脑室预先注射甲磺酸去铁胺,再重复上述实验,损毁侧CPu DA释放量和含量均无明显改变;（5）单侧黑质内注射40ug FeCl3后,大鼠损毁侧CPu内DA释放量和含量显著降低。上述结果提示,6－OHDA可导致CPu DA释放量及含量减少,此过程有铁的参与。由于铁可导致DA神经元死亡,因此铁含量的增加可能是DA含量减少的原因之一,甲磺酸去铁胺具有保护DA神经元的作用。     

单侧脑室和双侧脑室定位注射MPP~+制作帕金森病猴模型的比较研究

帕金森病(Parkinson’s disease,PD)是最常见的中枢神经系统退行性疾病之一,但目前其发病机制仍不明了。现阶段已成功建立了通过单侧脑室给予1-甲基-4-苯基吡啶离子(MPP~+)的PD造模方法,但该方法存在多种问题,不能很好地模拟PD发病机制。本研究旨在对单侧脑室给药方法进行改进,通过双侧脑室注射低剂量MPP~+建立慢性PD猴模型,并在造模时间、模型稳定性、模型表征以及~(99)Tc~m-TRODAT-1单光子发射计算机断层成像术(single-photon emission computed tomography,SPECT)脑显像数据方面进行两种造模方法的对比分析。结果显示,相对单侧造模组,双侧造模组的恒河猴PD症状出现得更快、更明显,给药结束后症状维持时间更长;单侧造模组猴左右两侧纹状体损毁不对称,左侧(给药侧)纹状体放射性摄取明显减弱,对侧受损较轻,而双侧造模组猴两侧纹状体放射性分布均显著缺失,呈明显的对称损毁。以上结果提示,双侧脑室给药造模方法的效果明显优于单侧脑室给药,可以为PD相关研究提供更加理想的动物模型。     

帕金森病大鼠模型中脑腹侧被盖区多巴胺能神经元改变及c-Jun蛋白表达

目的探讨帕金森病(Parkinson disease,PD)大鼠模型中脑腹侧被盖区(ventral tegmental area,VTA)多巴胺能神经元的改变及其c-Jun蛋白表达情况,探讨其可能机制。方法应用6-羟基多巴胺(6-hydroxydopamine,6-OHDA)单侧一点注射大鼠黑质致密区(substantia nigra compacta,SNc),特异性毁损DA能神经元;术后1d、7d、14d、21d腹腔注射阿朴吗啡(apomorphine,APO)诱发行为学观察、电镜、尼氏染色观察中脑VTA神经元的改变,免疫组织化学ABC观察其DA能神经元酪氨酸羟化酶(tyrosine hydroxylase,TH)及c-Jun的改变并进行图像分析,Western blot观察c-Jun蛋白表达。结果APO诱发PD大鼠模型异常旋转行为,尼氏染色及电镜见PD大鼠中脑VTA有神经细胞肿胀、坏死等变化,VTA TH阳性(TH )神经元数量减少,形态学改变。APO诱导的旋转实验≥7转/min,VTA毁损侧c-Jun表达。结论中脑VTA DA能神经参与PD模型大鼠的改变;APO能诱导6-OHDA PD模型大鼠的旋转行为,其强弱可能与TH 神经元数量直接相关;c-Jun表达与DA能神经元毁损程度有一定的关系。     

MPTP诱导小鼠黑质区铁摄取和DMT1表达增加

铁在帕金森病(Parkinson‘s disease,PD)的发病机制中起着非常关键的作用,为了探讨PD中铁升高的机制,本实验观察了1-甲基4-苯基—1,2,3,6-四氢吡啶(MPTP)处理小鼠黑质(substantia nigra,SN)内铁摄取及新的铁转运蛋白二价金属离子转运蛋白1(DMT1)的表达变化。结果表明：(1)MPTP处理组小鼠SN内铁染色增高,注射MPTP7d组明显高于3d组。(2)MPTP处理组小鼠,酪氨酸羟化酶(TH)免疫阳性细胞数目显著减少。(3)MPTP处理组小鼠,“-IRE”型DMT1表达在各组中均增加,而“ IRE”型DMT1仅在MPTP处理后7d才出现变化。上述结果提示,这种新发现的哺乳动物跨膜铁转运蛋白表达增加可能是引起MPTP处理小鼠SN中铁升高的关键因素,铁的升高进一步导致DA神经元的死亡。     

多巴胺代谢异常在帕金森病相关病理变化中的作用

帕金森病(Parkinson’s disease,PD)是常见的中枢神经系统退行性疾病之一,其主要病理学特征是中脑黑质部的多巴胺(dopamine,DA)能神经元选择性丢失。虽然已发现基因易感性、衰老、环境毒素等因素与PD发病有关,但导致DA能神经元退行性死亡的细胞分子机制仍不明确。DA代谢是DA能神经元中的重要生理过程,其过程与黑质DA能神经元丢失密切相关,DA代谢异常参与了PD神经元变性相关的诸多病理学过程,例如铁代谢异常、α-突触核蛋白异常聚集、内质网应激、蛋白质降解功能障碍、神经炎症反应等。本文就DA代谢异常在PD相关病理学过程中的作用进行综述。     

雌激素对6-羟基多巴胺损伤黑质多巴胺能神经元的保护作用

本研究以P50听觉诱发电位(P50 auditory evoked potential, P50)和酪氨酸羟化酶(tyrosine hydroxylase, TH)阳性细胞计数作为黑质功能和形态学指标,动态追踪研究雌激素对6-羟基多巴胺(6-hydroxydopamine, 6-OHDA)损伤黑质多巴胺(dopamine, DA)能神经元的作用.将大鼠分为4组:(1)正常雌性大鼠对照组;(2)单纯帕金森氏病(Parkinson's disease, PD)模型组;(3)双侧去卵巢PD模型组;(4)去卵巢回补3d雌激素的PD模型组.在大鼠清醒和安静的生理状态下连续14d记录黑质的P50,并检测黑质TH 细胞数目的变化.结果显示:单纯PD模型大鼠黑质P50的T/C值较正常雌鼠降低40.60%(P<0.01),其损伤侧黑质TH 细胞数目减少64.74%(P<0.01);去卵巢PD模型大鼠黑质P50的T/C值较单纯PD模型大鼠进一步降低45.88%(P<0.01),同时其黑质TH 细胞数目值也进一步减少57.26%(P<0.01),表明急性缺乏生理水平性腺雌激素将增大6-OHDA损伤黑质DA能神经元的程度,同时使黑质的感觉门控(sensory gating, SG)功能明显受损;去卵巢后回补3d生理剂量雌激素,可明显改善大鼠黑质的SG功能,提高TH 细胞数量(与去卵巢PD模型大鼠比较,P<0.01),其黑质损伤程度与单纯PD模型大鼠相当.以上结果提示,生理水平的雌激素具有提高黑质DA能神经元对伤害性刺激耐受性的神经保护作用.缺乏性腺源性的雌激素时,及时给予生理剂量的雌激素可以减轻神经毒素6-OHDA对黑质DA能神经元结构和功能的损伤.     

Hemiparkinsonism in monkeys after unilateral internal carotid artery infusion of 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP)

Infusion of MPTP (0.2-0.8 mg/kg) into the right internal carotid artery of monkeys produces toxin-induced injury to the right nigrostriatal pathway with sparing of other dopaminergic neurones on the infused side and with negligible or little injury to the opposite, untreated side. There are contralateral limb dystonic postures, rigidity, and bradykinesia, but the animals are able to eat and maintain health without drug treatment. Spontaneous motor activity is attended by circling towards the injured side, whereas treatment with L-DOPA/-carbidopa or apomorphine stimulates circling towards the intact side. Dopamine and dopamine metabolite levels are normal in the left caudate and putamen, but markedly depressed on the right (MPTP-treated) side. This animal hemiparkinsonian model will be useful in studies of volitional movement control, drug treatments of Parkinson's disease, and functional efficacy of brain tissue implants.     

Evidence for a dopaminergic innervation of the pedunculopontine nucleus in monkeys, and its drastic reduction after MPTP intoxication

The involvement of the pedunculopontine nucleus (PPN) and the adjacent cuneiform nucleus (CuN), known as the mesencephalic locomotor area, in the pathophysiology of parkinsonian symptoms is receiving increasing attention. Taking into account the role of dopamine (DA) in motor control and its degeneration in Parkinson's disease, this neurotransmitter could induce dysfunction in the PPN and CuN through a direct dopaminergic innervation of these brainstem structures. This study provides the first demonstration that the PPN and CuN are innervated by dopamine transporter-bearing fibres in normal monkeys, which points to a novel dopaminergic system that targets the lower brainstem. Intoxication with MPTP induced a significant loss of dopamine transporter-positive fibres in the PPN and CuN of young (3–5 years old) acutely or chronically intoxicated monkeys compared with control animals. The more severe DA depletion found after chronic intoxication may explain, at least in part, deficits that appear late in the evolution of Parkinson's disease. A drastic loss of DA fibres was also observed in aged acutely intoxicated monkeys (about 30 years old) suggesting that age- and disease-related loss of dopaminergic fibres might be responsible for symptoms, such as gait disorders, that are more severe in elderly parkinsonian patients.     

The role of nigral projections to the thalamus in drug-induced circling behaviour in the rat

Unilateral injection of 6-hydroxydopamine (6-OHDA) into the ascending nigrostriatal pathway caused contraversive circling to apomorphine and ipsiversive circling to amphetamine respectively. An electrolesion of the ventromedial thalamic nucleus on the same side as the 6-OHDA lesion reduced apomorphine-induced circling, but not that to amphetamine. An electrolesion of the ventromedial thalamic nucleus on the side opposite to the 6-OHDA lesion reduced amphetamine circling but not that to apomorphine. Bilateral electrolesions of the ventromedial thalamic nucleus reduced neither apomorphine- nor amphetamine-induced circling. Electrolytic lesions of the parafascicular thalamic nucleus did not reduce apomorphine- or amphetamine-induced circling in animals with a unilateral 6-OHDA lesion of the nigrostriatal pathway. Knife cuts rostral and dorsal to the substantia nigra did not attenuate circling induced by injection of muscimol into the substantia nigra. Circling due to activition of nigral output pathways can be mediated by descending nigro-reticular pathways.     

Drug-induced circling after unilateral 6-hydroxydopamine lesions of the nigro-striatal pathway is mediated via the midbrain periaqueductal grey and adjacent reticular formation (angular complex)

Unilateral 6-hydroxydopamine (6OHDA) lesions of the nigrostriatal pathway resulted in contraversive rotation to apomorphine and ipsiversive rotation to amphetamine. Electrolytic lesioning of the nucleus reticularis gigantocellularis or kainic acid lesions of the nucleus tegmenti pedunculopontis on the same side as the 6OHDA lesion did not reduce apomorphine- or amphetamine-induced circling. An electrolesion of the angular complex (periaqueductal grey and adjacent reticular formation) on the same side as the 6OHDA lesion reduced apomorphine-induced circling and increased amphetamine-induced circling. Bilateral electrolesions of the angular complex reduced both apomorphine- and amphetamine-induced rotation. The decrease in rotation was due to a loss of postural asymmetry while locomotor hyperactivity was maintained. A unilateral kainic acid lesion of the angular complex alone caused weak ipsiversive rotation which was enhanced by apomorphine and amphetamine. When a unilateral kainic acid lesion of the angular complex was made on the same side as a prior 6OHDA lesion, both apomorphine and amphetamine induced ipsiversive rotation. The area of the angular complex is critically involved in the mediation of drug-induced circling in unilaterally 6OHDA lesioned rats and in particular the postural component.     

Drug-induced circling preference in rats

Drugs of abuse, such as phencyclidine (PCP), methamphetamine (METH), and cocaine (COC) are known to affect several behaviors in rats, such as motor activity, stereotypy, and circling. In this study, we evaluated whether these drugs produce circling preferences in the presence or absence of unilateral 6-hydroxydopamine (6-OHDA)-induced lesions of the caudate nucleus. Adult male CD rats were lesioned with 10 μg 6-OHDA/site. Animals were dosed with PCP (15 mg/kg, ip), its congener, (+) MK-801 (0.15 mg/kg, ip), METH (2 mg/kg, ip), COC (60 mg/kg, ip), or apomorphine (0.2 mg/kg, ip). circling preference was recorded in control and lesioned rats for 2 h before animals were sacrificed to determine monoamine levels by HPLC/EC. In control animals, administration of these drugs produced 60–70% left circling. In, lesioned animals, these drugs produced 78–90% ipsilateral (toward the lesion) circling, except apomorphine, which produced 60–80% contralateral (away from the lesion) circling. Dopamine (DA) and its metabolites 3,4-dihydroxyphenylacetic acid (DOPAC) and homovanillic acid (HVA) concentrations significantly decreased ipsilaterally in lesioned caudate nucleus (CN) and substantia nigra (SN). However, no significant changes were observed in nucleus accumbens (NA) and olfactory tubercles (OT). These data demonstrate that drugs of abuse like PCP, its congener (+) MK-801, METH, and COC produce a greater preference to turn toward the left than the right, a finding similar to that found in human psychosis. Since 6-OHDA lesions enhanced the circling bias and depleted DA and its metabolites DOPAC and HVA, it also suggests that the dopaminergic system may be involved in the circling behavior.     

Circling behavior in old rats after unilateral intranigral injection of 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP)

Old and young adult rats received unilateral injections of MPTP or saline into the substantia nigra. Unilateral injection of MPTP in old rats induced ipsiversive circling on day 1 and day 7 after the injection; contraversive circling behavior was induced in MPTP-treated rats by systemic administration of apomorphine. Young rats showed ipsiversive circling on day 1 but not on day 7 after the injection; administration of apomorphine did not induce contraversive circling. On day 10 after the injection of MPTP, the concentration of D-2 receptors in the striatum of the injected hemisphere of old rats was increased by about 25% compared with the striatum of old rats with saline injection and of young rats with MPTP or saline injections. These results suggest that MPTP exerts neurotoxic effects on the nigrostriatal dopaminergic system of old rats and produces supersensitive dopamine receptors in the ipsilateral denervated striatum.     

Time-course of nigrostriatal degeneration in a progressive MPTP-lesioned macaque model of parkinson’s disease

Parkinson’s disease (PD) is characterized by a progressive loss of substantia nigra pars compacta (SNc) neurons. The onset of clinical symptoms only occurs after the degeneration has exceeded a certain threshold. In most of the current 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) nonhuman primate models, nigrostriatal lesions and the onset of PD symptoms are the result of an immediate neuronal degeneration in the SNc caused by acute injection of the toxin. In order to develop a model that more closely mimics the degeneration pattern of human PD, we eventually established a protocol that produces a progressive parkinsonian state by treating monkeys repeatedly with MPTP for 15 ± 2 d. Mean onset of parkinsonian symptoms occurred after 13.2 d of treatment. At this time, 56.8 ± 6.3% of tyrosine hydroxylase immunoreactive neurons and 75.2 ± 6.2% of Nissl-stained cells remained in the SNc. Striatal dopamine transporter (DAT) binding and dopamine (DA) content decreased to 19.7 ± 4.9% and 18.2 ± 5.6% of untreated monkeys. Parallel ¹²³I-PEI single-photon emission computed tomography (SPECT) imaging in living animals showed a similar decrease in striatal DAT binding. In this article, we examine how this and other chronic MPTP models fit with human pathology.     

Dopamine turnover is upregulated in the caudate/putamen of asymptomatic MPTP-treated rhesus monkeys

In Parkinson's disease (PD) and experimental parkinsonism, losses of up to 60% and 80%, respectively, of dopaminergic neurons in substantia nigra, and dopamine (DA) in striatum remain asymptomatic. Several mechanisms have been suggested for this functional compensation, the DA-mediated being the most established one. Since this mechanism was recently challenged by striatal DA analysis in 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP)-treated monkeys, we present data on several DAergic parameters in three groups of rhesus monkeys: MPTP-treated asymptomatic animals; symptomatic MPTP-treated animals with stable parkinsonism; and untreated sex and age matched controls. We determined ratios of striatal and nigral 3,4-dihydroxyphenyl acetic acid (DOPAC) to DA levels and tyrosine hydroxylase (TH) enzyme activity to DA levels, in addition to the commonly used homovanillic acid (HVA)/DA ratios which, as such, might be less reliable under the conditions of partial denervation. We found that in the asymptomatic MPTP monkeys the DOPAC/DA ratios in putamen and caudate nucleus were shifted with high statistical significance 1.9-5.8-fold, as compared to controls, the shifting of the ratios being in the same range as the 2.6-5.4-fold shifts in the symptomatic animals. Also TH/DA ratios were significantly increased in both, the asymptomatic and the symptomatic MPTP-treated monkeys, with shifts in the putamen and caudate nucleus of 3- and 2.7-7.0-fold, respectively. In the substantia nigra, DOPAC levels and TH activity were strongly decreased after MPTP (-77 to -97%), but the ratios DOPAC/DA and TH/DA were not changed in this brain region. Collectively, our findings support the concept of DAergic compensation of the progressive striatal DA loss in the presymptomatic stages of the parkinsonian disease process.     

Neurochemical and functional consequences following 1-methyl-4-phenyl-1,2,5,6-tetrahydropyridine (MPTP) and methamphetamine

The neurochemical and functional consequences following MPTP administration to the rat were evaluated and compared to similar effects following methamphetamine administration. It was observed that MPTP induced long lasting depletions of striatal dopamine concentrations and this neurotoxic effect could be prevented by pargyline pretreatment. The MPTP-induced neuronal damage produced a tolerance to the disruptive effects of amphetamine and a supersensitivity to the disruptive effects of apomorphine in rats responding in a schedule controlled paradigm. Methamphetamine, like MPTP, produced depletions of striatal dopamine but these actions were potentiated by pargyline pretreatment. These observations are discussed in reference to possible deleterious effects following the administration of pargyline to patients with Parkinson's Disease.     

The effect of amiridin on the MPTP-induced Parkinson-like syndrome in monkeys]

Development of behavioral disturbances was investigated during N-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) administration (0,2 mg/kg, i/m, at 48 h. intervals, total dose 11.2-13.2 mg/kg) in experiments on two monkeys Macaca rhesus. MPTP induced the complex of symptoms, which are typical for idiopathic Parkinson's disease. Administration of amiridine (0,25-0,4 mg/kg) to MPTP-treated monkeys caused gradual decline of Parkinson syndrome. Mechanisms of action of amiridine are discussed.