帕金森病大鼠中缝背核5-羟色胺能神经元放电频率和放电形式的变化

实验采用玻璃微电极细胞外记录法, 观察了帕金森病(Parkinson’s disease, PD)大鼠中缝背核(dorsal raphe nucleus, DRN)5- 羟色胺(5-hydroxytrypamine, 5-HT)能神经元电活动的变化。结果发现, 对照组和 PD 组大鼠 DRN 中 5-HT 能神经元的放电频率分别为(1.61 ±0.56) Hz 和(2.61 ±1.97) Hz, PD 组大鼠的放电频率显著高于对照组(P<0.05)。在对照组大鼠, 79% 的神经元呈现规则放电, 21% 为爆发式放电;在 PD 组大鼠,具有规则、不规则和爆发式放电的神经元比例分别为 36%、16% 和47%, 爆发式放电的 5-HT 能神经元比例明显高于对照组(P<0.05)。结果表明,帕金森病大鼠 DRN 中 5-HT 能神经元的放电频率增高, 且爆发式放电增多。     

5,7-双羟色胺损毁大鼠中缝背核后底丘脑核的神经活动增强

采用玻璃微电极在体细胞外记录法,观察了5,7-双羟色胺(5,7-dihydroxytryptamine,5,7-DHT)损毁大鼠中缝背核(dorsalraphenucleus,DRN)后,底丘脑核(subthalamicnucleus,STN)神经元电活动的变化。结果发现,对照组和DRN损毁组大鼠STN神经元的放电频率分别是(6.93±6.55)Hz和(11.27±9.31)Hz,DRN损毁组大鼠的放电频率显著高于对照组(P<0.01)。在对照组大鼠,13%的神经元呈现规则放电,46%为不规则放电,41%为爆发式放电;而在DRN损毁组大鼠,具有规则、不规则和爆发式放电的神经元比例分别为9%、14%和77%,爆发式放电的STN神经元比例明显高于对照组(P<0.01)。结果显示,DRN损毁后大鼠STN神经元的放电频率增高,爆发式放电增多,提示在正常大鼠DRN抑制STN神经元的活动。     

帕金森病大鼠中缝背核5-羟色胺能神经元电活动的变化

本实验采用玻璃微电极细胞外记录法,观察了帕金森病(Parkinson’s disease,PD)大鼠中缝背核(dorsal raphe nucleus, DRN)5-羟色胺(5-hydroxytryptamine,5-HT)能神经元电活动的变化。在大鼠右侧中脑黑质致密部内微量注射6-羟多巴胺(6- hydroxydopamine,6-OHDA)制作PD模型。结果显示,对照组和PD组大鼠DRN中5-HT能神经元的放电频率分别是(1．76±0．11)spikes／s(n=24)和(2．43±0．17)spikes／(n=21),PD组大鼠的放电频率显著高于对照组(P<0．001)。在对照组大鼠,92％(22／24)的神经元呈规则放电,8％(2／24)为爆发式放电;在PD组大鼠,具有规则、不规则和爆发式放电的神经元比例分别为9％(2／21)、43％(9／21)和48％(10／21),爆发式放电的5-HT能神经元比例明显高于对照组(P<0．001)。在对照组大鼠,DRN内局部注射5-HT1A拮抗剂WAY-100635(3μg/200nL)显著增加5-HT能神经元的放电频率而不影响其放电形式(n=19,P<0．002);而WAY-100635不改变PD组大鼠5-HT能神经元的放电频率和放电形式(n=17,P>0．05)。结果提示,用6-OHDA损毁黑质致密部造成的PD模型大鼠中神经元5-HT1A受体功能失调,并且DRN参与PD的病理生理学机制。     

大鼠脑内5-羟色胺在应激性溃疡形成中的作用

通过神经化学和神经药理学的方法,在大鼠观察了冷冻加束缚应激性溃疡的形成过程中,脑内5-羟色胺(5-HT)的作用。结果如下:1.在应激过程中,脑内5-HT 及其主要代谢产物5-羟吲哚乙酸(5-HIAA)的含量明显升高,特别是5-HIAA 的含量随着应激时间的延长持续上升,说明5-HT 的代谢加快。2.脑内5-HT 或5-HIAA 含量在应激45min 时与溃疡指数呈明显的负相关,而在应激180min 时则与溃疡指数呈明显的正相关。3.侧脑室注射5-HT或其前体5-羟色氨酸(5-HTP),对应激性溃疡的形成呈双重作用,小剂量时减轻而大剂量时加重溃疡的形成。4.腹腔注射5-HT 合成阻断剂对氯苯丙氨酸(pCPA)可降低大鼠脑内5-HT 和5-HIAA 含量,使应激60min 鼠的溃疡形成加重,而使应激180min 鼠的溃疡形成减轻。以上结果提示,在大鼠的冷冻加束缚应激性溃疡的形成过程中,脑内5-HT 起着一定的作用,它很可能在应激早期减轻而在应激晚期加重溃疡的形成。     

大鼠中缝背核和中央上核内5－HT能神经元生后发育的免疫细胞化学及图像分析研究

本实验采用免疫细胞化学方法,研究了大白鼠中缝背核及中央上核内５－ＨＴ能神经元的生后转折变化,并结合图像分析对中缝中央上核内５－ＨＴ能神经元的生后发育进行了定量研究。结果显示,在生后第１天,中缝背核和中央上核内５－ＨＴ阳性胞体密集排列,突起较短。从Ｐ１到Ｐ３０,中缝背核内,５－ＨＴ阳性胞体密度明显降低,外侧部５－ＨＴ阳性细胞突起的长度显著增加。中缝中央上核内,至Ｐ１０,５－ＨＴ阳性胞体仍密集排列,且胞体增大,至Ｐ３０,细胞排列变得疏松。从Ｐ９０到Ｐ９０,中缝背核和中央上核内阳性细胞的分布及形态无明显变化。统计学处理结果表明,中缝中央上核内５－ＨＴ能胞体数量从Ｐ１到Ｐ３０有显著性增加,从Ｐ３０到Ｐ９０有显著性减少。胞体面积及周长从Ｐ１至Ｐ３０逐渐增加,在Ｐ１０至Ｐ３０阶段增长最快。Ｐ１与Ｐ３０以及Ｐ１与Ｐ９０比较,胞体形状因子显著增加。从Ｐ１至Ｐ３０,中缝中央上核外侧散布的５－ＨＴ阳性细胞逐渐减少,至成年只能偶尔见到,且胞体变得不规则。     

猫中缝-脊髓5-羟色胺能和阿片肽能下行抑制系统在抗内脏伤害性反应中作用的比较

在无麻醉的麻痹猫,以伤害性电刺激内脏大神经传入纤维诱发的连续内脏躯体反射放电为指标,分别刺激腓总神经、延髓中缝大核区以及包括导水管周围灰质、中央中核在内的脑区以产生相应的抑制效应。分别全身与脊髓硬膜内给予纳洛酮以及对氯苯丙胺与羟甲丙基甲基麦角酰胺(Methysergide),观察各种抑制效应的变化。发现:(1)静脉注射纳洛酮虽在不少的动物上能暂时地逆转上述效应,但逆转的程度都是不完全的,硬膜内给药也有类似作用;(2)静脉或腹腔内注射对氯苯丙胺一般能较完全而持久地阻断这些抑制效应,但对腓总神经的抑制效应影响较小,硬膜内给药也有相似的效果;(3)羟甲丙基甲基麦角酰胺(静脉或硬膜内注射)主要阻断腓总神经的抑制效应,对中缝大核的抑制效应影响较小。上述结果显示,阿片肽能和5-羟色胺能下行系统均直接参与内脏痛觉传递的延髓中缝-脊髓调节机制,但后者所起的作用可能更大。     

5-羟色胺对电针抑制青霉素痫样放电的作用

本工作研究电针抑制青霉素所致大脑皮层痫样放电中5-羟色胺的作用。大鼠腹腔注射对氯苯丙氨酸,注射后第4天麻醉开颅,皮层施加青霉素引起痫样放电,并记录逆向刺激锥体央所引起的皮层回返抑制电位(SN)。在注药后动物,电针制痫作用明显减弱,痫波幅度及频率减小缓慢,SN 的恢复也较对照缓慢。电解损毁中缝背核后电针制痫作用亦减弱,痫波发作时程显著延长。电刺激中缝背核可促进痫波振幅及频率的衰减,发作时程缩短。电刺激中脑导水中管周围 灰质有遏制痫波的作用,但在注射对氯苯丙氨酸后此作用亦趋减弱。以上结果表明,在电针制痫中5-HT及5-HT能神经元集中的中缝背核起重要作用。     

大鼠中缝背核内一氧化氮合酶阳性原位触液神经元的观察

通过研究大鼠中缝背核内远位触液神经元与一氧化氮合酶（NOS）阳性神经元的关系。以探讨一氧化氮（NO）是否是触液神经元在脑-脑脊液之间的信息传递有关,选用霍乱毒素亚单位B标记的辣根过氧化物酶（CB-HRP）逆行追踪与还原型尼可酰胺腺嘌呤二核苷磷酸（NADPH）黄递酶反应,CB-HRP标记的神经元密集分布于中缝背核,可见CB-HRP/NADPH-d双重标记的神经元,中缝背核内一部分远位触液神经元存在NOS,这些神经元在脑-脑脊液之间的信息传递中起着很重要的作用。     

PTSD大鼠中缝背核神经元TMP酶表达变化的实验研究

目的研究创伤后应激障碍大鼠中缝背核神经元细胞TMP(三偏磷酸酶)活性分布及其表达变化。方法采用SPS刺激方法,建立PTSD样大鼠SPS模型,随机分为SPS刺激后1d、7d、14d和正常对照组,应用光、电镜酶组化技术方法,分别对各组中缝背核神经元细胞TMP活性分布及其变化进行观察和定量检测。结果光镜下TMP酶反应阳性产物为棕褐色颗粒分布于细胞质中;电镜下TMP酶反应阳性产物为高电子密度的黑色颗粒沉淀,分布于各组中缝背核神经元细胞内溶酶体上。SPS刺激后1d、7d、14d中缝背核神经元TMP活性表达比正常对照组明显增强,并于7d达到高峰。结论创伤后应激障碍大鼠中缝背核神经元细胞TMP活性增强,提示TMP参与了中缝背核神经元细胞凋亡产物的降解和处理过程。     

刺激中缝背核和蓝斑对下丘脑弓状核区诱发电位的影响

实验在用水合氯醛麻醉的雄性成年大鼠上完成。目的是观察刺激中缝背核和蓝斑对刺激坐骨神经诱发下丘脑弓状核区电位的影响。结果表明:(1)电刺激中缝背核和蓝斑与腹腔注射吗啡一样,可以明显抑制外周伤害性刺激所诱发的弓状核区电位的第三个迟发成分(Sw_3);(2)脑室注射及微电泳作为中缝背核和蓝斑各自所释放的主要神经递质——5-羟色胺和去甲肾上腺素也能明显地抑制 SW_3成分。     

基底外侧杏仁核对睡眠-觉醒的调节作用

采用多道睡眠描记方法,观察了基底外侧杏仁核在睡眠－觉醒调节中的作用。结果发现,电损毁双侧ＢＬＮ引起慢波睡眠和快波睡眠增加,觉醒减少;在双侧ＢＬＮ内注射选择性损毁神经元胸体剂量的红藻氨酸引起双相效应,注射ＫＡ后第１天出现失眠,自第３天开始,ＳＷＳ增多,Ｗ减少,但ＰＳ无显著变化。     

Biophysical properties and computational modeling of calcium spikes in serotonergic neurons of the dorsal raphe nucleus

Serotonergic neurons of the dorsal raphe nuclei, with their extensive innervation of nearly the whole brain have important modulatory effects on many cognitive and physiological processes. They play important roles in clinical depression and other psychiatric disorders. In order to quantify the effects of serotonergic transmission on target cells it is desirable to construct computational models and to this end these it is necessary to have details of the biophysical and spike properties of the serotonergic neurons. Here several basic properties are reviewed with data from several studies since the 1960s to the present. The quantities included are input resistance, resting membrane potential, membrane time constant, firing rate, spike duration, spike and afterhyperpolarization (AHP) amplitude, spike threshold, cell capacitance, soma and somadendritic areas. The action potentials of these cells are normally triggered by a combination of sodium and calcium currents which may result in autonomous pacemaker activity. We here analyse the mechanisms of high-threshold calcium spikes which have been demonstrated in these cells the presence of TTX (tetrodotoxin). The parameters for calcium dynamics required to give calcium spikes are quite different from those for regular spiking which suggests the involvement of restricted parts of the soma-dendritic surface as has been found, for example, in hippocampal neurons.     

In vivo interaction between serotonin and galanin receptors types 1 and 2 in the dorsal raphe: implication for limbic seizures

The neuropeptide galanin suppresses seizure activity in the hippocampus by inhibiting glutamatergic neurotransmission. Galanin may also modulate limbic seizures through interaction with other neurotransmitters in neuronal populations that project to the hippocampus. We examined the role of galanin receptors types 1 and 2 in the dorsal raphe (DR) in the regulation of serotonergic transmission and limbic seizures. Infusion of a mixed agonist of galanin receptors types 1 and 2 [galanin (1-29)] into the DR augmented the severity of limbic seizures in both rats and wild-type mice and concurrently reduced serotonin concentration in the DR and hippocampus as measured by immunofluorescence or HPLC. In contrast, injection of the galanin receptor type 2 agonist galanin (2-11) mitigated the severity of seizures in both species and increased serotonin concentration in both areas. Injection of both galanin fragments into the DR of galanin receptor type 1 knockout mice exerted anticonvulsant effects. Both the proconvulsant activity of galanin (1-29) and seizure suppression by galanin (2-11) were abolished in serotonin-depleted animals. Our data indicate that, in the DR, galanin receptors types 1 and 2 modulate serotonergic transmission in a negative and a positive fashion, respectively, and that these effects translate into either facilitation or inhibition of limbic seizures.     

Regulation of nucleus accumbens dopamine release by the dorsal raphe nucleus in the rat

The effects of microinfusingl-glutamate, serotonin (5-HT), (±)-8-hydroxy-2-(di-N-propylamino) tetralin (8-OH DPAT; a 5-HT_1A agonist), and muscimol (a GABA_A agonist) into the dorsal raphe nucleus on the extracellular levels of 5-HT, dopamine (DA) and their metabolites in the nucleus accumbens were studied in unanesthetized, freely moving, adult male Wistar rats, using the technique of microdialysis coupled with small-bore HPLC. Administration of 0.75 gl-glutamate produced a 25–50% increase (P<0.05) in the extracellular levels of both 5-HT and DA. On the other hand, infusion of 8-OH DPAT and, to a lesser extent, 5-HT produced a significant (P<0.05) decrease in the extracellular levels of both 5-HT and DA. Muscimol (0.25 or 0.50 g) had little effect on the extracellular concentrations of 5-HT or DA following its administration. In general, the extracellular levels of the major metabolites of 5-HT and DA in the nucleus accumbens were not altered by microinfusion of any of the agents. The data indicate that (a) the 5-HT neurons projecting to the nucleus accumbens from the dorsal raphe nucleus can be activated by excitatory amino acid receptors and inhibited by stimulation of 5-HT_1A autoreceptors, and (b) the dorsal raphe nucleus 5-HT neuronal system may regulate the ventral tegmental area DA projection to the nucleus accumbens.Special issue dedicated to Dr. Morris H. Aprison     

Dorsal raphe serotonergic neurons preferentially reactivate dorsal dentate gyrus cell ensembles associated with positive experience

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Single-cell activity and network properties of dorsal raphe nucleus serotonin neurons during emotionally salient behaviors

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Periaqueductal gray/dorsal raphe dopamine neurons contribute to sex differences in pain-related behaviors

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Synaptic relations of neurotensinergic neurons in the dorsal raphe nucleus

The ultrastructure and synaptic relations of neurotensinergic neurons in the rat dorsal raphe nucleus (DRN) were examined. The neurotensin-like immunoreactive (NT-LI) neurons in the DRN were fusiform or spherical. The NT-LI perikarya could only be detected in colchicine-treated animals whereas the immunoreactive axon terminals could only be found in the anirnals not treated with colchicine. Although many NT-LI dendrites received synapses from nonimmunoreactive axon terminals, the NT-LI perikarya received few synapses. NT-LI axon terminals also made synapses on nonimmunoreactive dendrites. Occasionally, synapses were found between the NT-LI axon terminals and NT-LI dendrites in the cases in which the animals were not treated with colchicine.