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     

Ultrastructural immunocytochemical characterization of isotocin,vasotocin and neurophysin neurons in the magnocellular preoptic nucleus of the goldfish

Summary We describe the ultrastructural localization of isotocin, vasotocin and neurophysin in the magnocellular preoptic nucleus of the goldfish. With the aid of immunocytochemical techniques, we see staining both in classical neurosecretory granules and in diffuse agranular form throughout somata and processes. Signs of cellular and synaptic interactions between chemically identified neurons include axon terminals which contain vasotocin immunoreactivity and membrane specializations (puncta adhaerentia) between adjacent somata. Our investigations provide an anatomical basis for neuroendocrine and neurotransmitter-like functions of peptidergic neurons in the teleost preoptic nucleus.     

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.     

Ghrelin postsynaptically depolarizes dorsal raphe neurons in rats in vitro

Ghrelin promotes growth hormone (GH) secretion and feeding. Recent studies further showed that ghrelin displayed a defending effect against the depressive-like symptoms and affected sleep in animals and humans. Serotonergic system is considered to be implicated in feeding, depression and other mood disorders, and sleep. The dorsal raphe nucleus (DRN) utilizes serotonin (5-HT) as its major neurotransmitter and expresses GH secretagogue receptors (GHS-Rs). Therefore, the present study was carried out to examine the electrophysiological effect of ghrelin on rat DRN neurons in vitro and determine the ionic mechanism involved. Whole-cell recording revealed that ghrelin depolarized DRN neurons dose-dependently in tetrodotoxin-containing artificial cerebrospinal fluid (TTX ACSF). Pretreatment with [d-Lys³]-GHRP-6, a selective antagonist for GHS-Rs, antagonized the ghrelin-induced depolarization. The depolarization was significantly reduced in a low-Na⁺ TTX ACSF and in a high-K⁺ TTX ACSF and was abolished in the combination of both ACSFs, suggesting that the ghrelin-induced depolarization is mediated by a dual ionic mechanism including an increase in nonselective cationic conductance and a decrease in K⁺ conductance. The experiments on the reversal potential also supported an involvement of the dual ionic mechanism in the ghrelin-induced depolarization. On the basis of their electrophysiological and pharmacological properties, approximately 80% of DRN neurons were classified as putative 5-HT-containing neurons and ghrelin depolarized 75% of them. These results suggest that DRN neurons, especially 5-HT-containing neurons, might be involved in the neural mechanisms through which ghrelin participates in the development and/or regulation of feeding behavior, sleep-wake states and depressive-like symptoms.     

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。     

Synaptic patterns in the dorsal lateral geniculate nucleus of the monkey

Summary Synaptic junctions are found in all parts of the nucleus, being almost as densely distributed between cell laminae as within these laminae.In addition to the six classical cell laminae, two thin intercalated laminae have been found which lie on each side of lamina 1. These laminae contain small neurons embedded in a zone of small neural processes and many axo-axonal synapses occur there.Three types of axon form synapses in all cell laminae and have been called RLP, RSD and F axons. RLP axons have large terminals which contain loosely packed round synaptic vesicles, RSD axons have small terminals which contain closely packed round vesicles and F axons have terminals intermediate in size containing many flattened vesicles.RLP axons are identified as retinogeniculate fibers. Their terminals are confined to the cell laminae, where they form filamentous contacts upon large dendrites and asymmetrical regular synaptic contacts (with a thin postsynaptic opacity) upon large dendrites and F axons. RSD axons terminate within the cellular laminae and also between them. They form asymmetrical regular synaptic contacts on small dendrites and on F axons. F axons, which also occur throughout the nucleus, form symmetrical regular contacts upon all portions of the geniculate neurons and with other F axons. At axo-axonal junctions the F axon is always postsynaptic.Supported by Grant R 01 NB 06662 from the USPHS and by funds of the Neurological Sciences Group of the Medical Research Council of Canada. Most of the observations were made while R. W. Guillery was a visiting professor in the Department of Physiology at the University of Montreal. We thank the Department of Physiology for their support and Mr. K. Watkins, Mrs. E. Langer and Mrs. B. Yelk for their skillful technical assistance.     

Synaptic interactions between ghrelin- and neuropeptide Y-containing neurons in the rat arcuate nucleus

Morphological relationships between neuropeptide Y- (NPY) like and ghrelin-like immunoreactive neurons in the arcuate nucleus (ARC) were examined using light and electron microscopy techniques. At the light microscope level, both neuron types were found distributed in the ARC and could be observed making contact with each other. Using a preembedding double immunostaining technique, some NPY-immunoreactive axon terminals were observed at the electron microscope level to make synapses on ghrelin-immunoreactive cell bodies and dendrites. While the axo-somatic synapses were mostly symmetric in nature, the axo-dendritic synapses were both symmetric and asymmetric. In contrast, ghrelin-like immunoreactive (ghrelin-LI) axon terminals were found to make synapses on NPY-like immunoreactive (NPY-LI) dendrites although no NPY-like immunoreactive perikarya were identified receiving synapses from ghrelin-LI axon terminals. NPY-like axon terminals were also found making synapses on NPY-like neurons. Axo-axonic synapses were also identified between NPY- and ghrelin-like axon terminals. The present study shows that NPY- and ghrelin-LI neurons could influence each other by synaptic transmission through axo-somatic, axo-dendritic and even axo-axonic synapses, and suggests that they participate in a common effort to regulate the food-intake behavior through complex synaptic relationships.     

PTSD促进大鼠中缝背核细胞色素c表达

目的研究创伤后应激障碍(PTSD)大鼠中缝背核神经元细胞色素C(Cyt-c)的表达变化。方法应用无连续单一刺激(SPS)方法建立PTSD大鼠模型,随机分为SPS刺激后1d、4d、7d和对照组,应用酶组织化学法和RT-PCR方法观察中缝背核神经元Cyt-c的表达变化。结果光镜酶细胞化学法和RT-PCR法显示中缝背核神经元Cyt-c染色阳性细胞于SPS刺激后1d明显高于对照组,4d逐渐增高,并于7d达到高峰。电镜下显示Cyt-c阳性反应产物主要分布在中缝背核神经元线粒体膜,SPS刺激后可见Cyt-c释放到胞浆中。结论 SPS刺激引起Cyt-c在PTSD大鼠中缝背核神经元呈过表达。     

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。     

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

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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。     

Ultrastructural study of neurotensin immunoreactivity in the superficial laminae of the dorsal horn of the rat

Neurotensin immunoreactivity was identified in cell bodies, dendrites, spines, axons, terminals and varicosities in superficial laminae of rat spinal cord with the electron microscope. Unlabeled terminals synapsed with neurotensin-immunoreactive cell bodies, dendrites and spines. Presynaptic terminals contained round or pleomorphic vesicles and generally made symmetrical contacts with medium-sized neurotensin-containing dendrites in outer lamina II, and asymmetrical or symmetrical contacts with large and small dendrites and spines in inner lamina II. Neurotensin immunoreactive axons were unmyelinated, and their terminals were presynaptic to unlabeled dendrites and spines in laminae I and II. Terminals contained small, round, clear vesciles (31 nm) and occasional large granular vesicles (78 nm). Contacts in outer lamina II were evenly distributed among dendrites of various sizes and spines, whereas the majority of labeled terminals in inner lamina II made contacts onto small dendrites and spines. These findings indicate that neurotensin effects in rat spinal cord are mediated by axodendritic synapses, and that neurotensin cells at the inner and outer borders of lamina II contact dendrites of efferent neurons or other interneurons in the dorsal horn.     

Taok1 haploinsufficiency leads to autistic-like behaviors in mice via the dorsal raphe nucleus

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Immunoelectronmicroscopic localization of vasopressin in the rat suprachiasmatic nucleus

Summary The classical areas for arginine-vasopressin (AVP) synthesis are the magnocellular supraoptic (SON) and paraventricular nuclei. More recently AVP was also demonstrated in neurons of the parvocellular suprachiasmatic nucleus (SCN) of the rat. This result was substantiated in the present study by means of immunoelectron microscopy, by subjecting sections to antivasopressin plasma. Conventional electron microscopy revealed dense-core vesicles in the SCN cell bodies and fibres (mean diameter 94.7±0.9 nm and 84.0±1.1 nm respectively). These vesicles were infrequent within the cell bodies and could not be accumulated by ethanol administration. Immunoelectron microscopy showed a positive reaction in the cell bodies and fibres within vesicles of 93.7±1.1 nm and 98.5±1.2 nm respectively. By comparison, the cell bodies and fibres of the SON showed immunoreactive granules of 143.0±1.8 and 147.3±1.8 nm respectively. The presence in the SCN of AVP in vesicles of different size than those in the SON suggests that synthesis of this substance is indeed occurring within the SCN cells.Supported by The Foundation for Medical Research FUNGOThe authors wish to thank Dr. L.A. Sternberger (Edgewood Arsenal, Md., U.S.A.) for the peroxidase-anti-peroxidase complex, Dr. J.G. Streefkerk (Free University, Amsterdam) and the members of our project group Neuroendocrinology for their suggestions, Mr. P.S. Wolters and Miss A. van der Veiden for their skilled assistance     

蓝斑核、中缝大核和迷走神经背核在胃运动调节中的关系

目的：探讨蓝斑（LC）、中缝大核（NRM）和迷走神经背核（DMV）,及其相关递质和受体对胃运动的调节途径及机制,阐明它们在调节胃运动中的相互关系。方法：实验采用了核团定位电刺激、损毁和核团微量注射等实验方法,以记录胃内压,统计胃收缩幅度作为胃运动变化的指标。结果：①刺激LC显著降低胃收缩幅度（P〈0.01）,损毁DMV可以减弱此效应,而阻断DMV上的肾上腺素能α受体,可以反转此抑胃效应。②刺激NRM显著降低胃收缩幅度（P〈0.01）,损毁DMV后此效应被消除;阻断DMV上的5-HT2A受体使胃收缩幅度大幅度降低（P〈0.01）,此时再刺激NRM不能进一步的抑制胃运动;而损毁LC后刺激NRM,可消除NRM的抑胃效应,在LC注射5-HT2A受体阻断剂也可以消除该效应。结论：①LC可能通过DMV的5-HT2A受体和α受体对生理条件下正常胃的运动起着重要的双向调节作用;②NRM通过LC上的5-HT2A受体而发挥其对胃运动的抑制效应。     

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

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G protein-coupled receptor kinase 2 mediates mu-opioid receptor desensitization in GABAergic neurons of the nucleus raphe magnus

Nucleus raphe magnus (NRM) sends the projection to spinal dorsal horn and inhibits nociceptive transmission. Analgesic effect produced by mu-opioid receptor agonists including morphine partially results from activating the NRM-spinal cord pathway. It is generally believed that mu-opioid receptor agonists disinhibit spinally projecting neurons of the NRM and produce analgesia by hyperpolarizing GABAergic interneurons. In the present study, whole-cell patch-clamp recordings combined with single-cell RT-PCR analysis were used to test the hypothesis that DAMGO ([D-Ala(2),N-methyl-Phe(4),Gly-ol(5)]enkephalin), a specific mu-opioid receptor agonist, selectively hyperpolarizes NRM neurons expressing mRNA of glutamate decarboxylase (GAD(67)). Homologous desensitization of mu-opioid receptors in NRM neurons could result in the development of morphine-induced tolerance. G protein-coupled receptor kinase (GRK) is believed to mediate mu-opioid receptor desensitization in vivo. Therefore, we also investigated the involvement of GRK in mediating homologous desensitization of DAMAMGO-induced electrophysiological effects on NRM neurons by using two experimental strategies. First, single-cell RT-PCR assay was used to study the expression of GRK2 and GRK3 mRNAs in individual DAMGO-responsive NRM neurons. Whole-cell recording was also performed with an internal solution containing the synthetic peptide, which corresponds to G(betagamma)-binding domain of GRK and inhibits G(betagamma) activation of GRK. Our results suggest that DAMGO selectively hyperpolarizes NRM GABAergic neurons by opening inwardly rectifying K(+) channels and that GRK2 mediates short-term homologous desensitization of mu-opioid receptors in NRM GABAergic neurons.     

中缝背核5-羟色胺能神经元在睡眠调节中的作用研究

目的：研究中缝背核(DRN)5-羟色胺(5-HT)能神经元在睡眠中的调节作用。方法：运用脑立体定位、核团微量注射和多导睡眠描记(PSG),观察DRN 5-HT能神经元对大鼠睡眠的影响。结果：DRN微量注射谷氨酸钠(L-Glu),大鼠睡眠减少,特别是深慢波睡眠(SWS2)明显减少,觉醒(W)增加;DRN微量注射海人酸(KA)和对氯苯丙氨酸(PCPA),大鼠SWS2和异相睡眠(PS)增加,W减少。结论：DRN 5-HT能神经元参与睡眠的调节,兴奋DRN 5-HT能神经元睡眠时间减少,抑制DRN 5-HT能神经元则具有促进睡眠的作用。