延髓后角脑啡肽超微结构定位和非突触部位释放——脑啡肽突触前抑制痛觉传递的形态学基础

阿片肽在后角镇痛的作用机理,被认为是通过突触前抑制一级传入纤维P物质释放的结果,然而始终未获得形态学的证实。鉴于一级传入纤维存在大量阿片受体的事实,曾提出阿片肽突触前抑制可能是通过非突触的轴-轴作用。为了验证这一设想,本文用免疫组化方法,详细观察了大鼠延髓后角浅层亮氨酸脑啡肽(L-ENK)轴突终末的突触结构和胞吐释放。电镜观察显示,延髓后角ENK终末可分为两类,第一类终末除了含圆形小清亮囊泡外,还有较多的大颗粒小泡(一般7个以上),主要分布于Ⅰ层,很少看到此类终末形成突触;第二类终末,一般含较多圆形清亮小泡和少量大颗粒小泡(一般不超过3个),它们分布于Ⅰ层和Ⅱ层,此类终末主要形成轴-树突触和少量的轴-体突触。只见到一例轴-轴突触,其突触后成分为未标记的R型终末,此外还见到ENK阳性树突成为中央终末的突触后成分。在去传入神经条件下,上述各类终末皆可见到ENK阳性大颗粒小泡的胞吐形成,它们皆位于非突触区,而在突触部位可见到清亮小泡胞吐像,上述结果提示后角ENK非突触部位释放可能是哭触后抑制一级传入纤维P物质释放的形态学基础。     

三叉神经尾侧脊束核内P物质纤维终末的超微结构

目的　进一步探讨三叉神经尾侧脊束核内SP免疫反应阳性纤维在感觉传递中的可能作用。方法　SP采用免疫细胞化学方法和电子显微镜方法 ,观察大鼠三叉神经尾侧脊束核内SP阳性标记纤维的超微结构和突触联系。结果　SP轴突终末分布于树突间 ,这些轴突终末含有大量的透明小泡、少量大致密芯小泡和线粒体。经过秋水仙素处理后 ,可见到SP免疫反应阳性树突。多数SP轴突终末与非标记树突 ,以及个别SP轴突终末与SP树突形成轴 树突触。含SP的突触复合体较为多见 ,为会聚型。其中可见SP轴突终末与中心的非标记树突形成GrayⅡ型轴 树突触 ;另有非标记的轴突终末与中心SP树突形成 (扁平小泡形 )F型轴 树突触。结论　三叉神经尾侧脊束核接受多种纤维传入 ,SP纤维只是多种传入纤维中的一种。形态学证明 ,在痛调制活动中 ,三叉神经尾侧脊束核内有SP纤维构成的突触后抑制类型 (GrayⅡ )突触参与。     

正中隆起内NT能神经元的SP能神经支配的免疫电镜双标研究

应用包埋前免疫电镜PAP双标技术,对大鼠下丘脑正中隆起内的神经紧张素(neurotensin,NT)和P物质(substance P,SP)的分布进行了超微结构研究。先用DAB法显示SP免疫反应,然后用钼酸-TMB法显示NT免疫反应,再经DAB-氯化钴稳定后作免疫电镜包埋。电镜观察发现:在正中隆起内SP免疫反应呈电子密度高的颗粒状或絮状沉淀,广泛分布于轴突内的小清亮囊泡周围和基质内;NT免疫反应产物则为电子密度高的针状或块状,散在分布于胞体、树突和轴突内。含SP的轴突可接受免疫反应阴性轴突的传入性突触,也可与阴性树突形成传出性轴-树突触;含NT的树突和胞体均可接受阴性轴突的传入性突触。此外,SP阳性轴突末梢还可与NT阳性神经元的树突棘形成对称性轴-棘突触及与NT阳性轴突形成对称性轴-轴突触。实验结果表明:大鼠正中隆起内的NT能神经元接受SP能神经的支配,为下丘脑神经内分泌的突触调控提供了新的超微结构依据。     

大鼠中脑导水管周围灰质腹外侧区5-羟色胺样、P物质样和亮氨酸-脑啡肽样免疫反应阳性亚微结构的电镜观察

本文用免疫电镜技术研究了大鼠中脑导水管周围灰质腹外侧区内5-HT样、SP样和L-ENK样的免疫反应阳性亚微结构。5-HT样免疫反应阳性的胞体较多,常见5-HT样阳性树突与阴性轴突终末形成多为非对称性的轴-树突触;偶见阳性轴突终末与阴性树突以及阴性轴突终末与阳性胞体分别构成轴-树和轴-体突触.SP样阳性胞体数目较少,可见少量含多形性小泡的阴性轴突终末与之形成轴-体突触;由阴性轴突终末与阳性树突所形成的轴-树突触最常见;阳性轴突终末与阴性胞体和阳性树突分别构成轴-体突触和轴-树突触。L-ENK样阳性胞体数目也较少,L-ENK样阳性树突与阴性轴突终末所形成的轴-树突触最多见,可见L-ENK样阳性胞体与阴性轴突终末构成轴-体突触;偶见阳性轴突终末与阴性树突形成轴-树突触。上述各种突触均主要含圆形小泡,有时有少量扁平小泡、椭圆形小泡和颗粒囊泡。     

大鼠脊髓后角内甲啡肽标记及非标记结构与C纤维间关系的免疫电镜研究

向大鼠蛛网膜下腔注射辣椒素导致一级传入纤维中的Ｃ纤维变性后，用免疫电镜技术在大鼠脊髓后角浅层内观察到：（１）大量含甲啡肽的轴突终末与未标记树突（或棘）形成对称性（少数为非对称性）突触；（２）含甲啡肽的轴突终未与变性终末共同会聚于同一甲啡肽阴性树突；（３）少量含甲啡肽轴突终末与变性终末间形成轴－轴突触或接触；（４）变性终末与含甲啡肽的树突形成非对称性轴－树突触；（５）甲啡肽阴性轴突终末与变性终末会聚于同一未标记树突并与变性终末间形成轴－轴突触或接触．以上结果表明，在脊髓后角内，脑啡肽除主要以突触后抑制方式调节Ｃ纤维传入外，也可通过轴－轴突触或接触对Ｃ纤维传入进行突触前抑制；非甲啡肽能神经元也能对Ｃ纤维传入进行突出后又突触前抑制．此外，Ｃ纤维在脊髓后角内可通过兴奋性轴－树突触直接影响甲啡肽能中间神经元的活性．     

SP,CGRP,ENK样阳性纤维终末在猫骶髓后连合核内的分布特征及超微结构

本实验用免疫组化电镜技术对骶髓后连合核中SP祥、CGRP样、L-ENK样阳性终末进行了观察,结果表明:SP样阳性终末主要含圆形清亮小泡,间有少量颗粒囊泡,主要与中、小树突形成不对称型轴-树突触(93%);还可见到不对称型轴-体突触(5%);也可见到少量的轴-轴突触(2%),SP样阳性终末为突触后成分。CGRP样阳性终末以含圆形清亮小泡为主,有的终末内混有颗粒囊泡。大多数终末(89%)与树突构成轴-树突触,但以远侧树突为主;也有少数(6%)的CGRP样阳性终末与胞体形成轴-体突触;还观察到由阴性终末与CGRP样阳性终末构成的轴-轴突触。L-ENK样阳性终末以含圆形清亮小泡为主,有时可见散在的颗粒囊泡,多与中、小树突形成不对型轴-树突触(92%);也观察到轴-体突触(5%)和轴-轴突触(3%)。     

大鼠脊髓后角内甲啡肽标记及其标记结构与C纤维间关系的免疫电镜观察

向大鼠蛛网膜下腔注射辣椒素导致一级传入纤维中的Ｃ纤维变性后，用免疫电镜技术在大鼠脊髓后角浅层内观察到：（１）大量含甲啡肽的轴突终末与末标记树突形成对称性突触；（２）含甲啡肽的轴突终末与突性终末共同会聚于同一甲啡肽阴性树突；（３）少量含甲啡肽轴突终末与变性终末间形成轴－轴突触或接触（４）变性终末与含甲啡肽的树突形成非对称性轴－树突触；（５）甲啡肽阴性轴突终末与变性终末会聚于同一未标记树突并与变性终末     

大鼠延髓后角神经降压肽(NT)的亚细胞定位和胞吐释放

神经降压肽(NT)广泛分布于哺乳动物的中枢神经系统,具有明显的镇痛作用,为了探索其镇痛机理的形态学基础,本文应用电镜免疫组化技术,对大鼠延髓后角NT的超微结构和胞吐释放进行了研究。超微结构显示延髓后角浅层NT轴突终末形态多样,大小不一,含有圆形或多形性清亮小泡及数量不等的大颗粒小泡,它们主要与未标记的树突形成轴-树突触,其突触后成分有的还含有少量清亮小泡。NT免疫反应阳性树突可分为两类:一类主要含微管;另一类主要含大颗粒小泡,有的尚可见少量清亮小泡。这两类NT树突可成为未标记的含圆形小泡终末、多形性小泡终末以及突触小球中央轴突终末的突触后成分,提示后角浅层NT神经元可接受不同种类轴突终末(包括一级伤害性传入纤维)的传入(?)动,然后可能再通过一个抑制性中间神经元,抑制痛觉的传递。本文还观察到有少量NT终末内的大颗粒小泡靠近突触活性区处,而更多见它们沿非突触部位轴膜分布,并与其融合,形成胞吐。本文认为NT既可在突触活性区处又可能在非突触部位释放。     

大鼠中缝大核内5-羟色胺样P物质样和亮氨酸脑啡肽样突触结构的免疫电镜观察

用免疫电镜法在大鼠中缝大核内观察到:(1) 5-羟色胺(5-HT)样阳性轴突终末与阴性胞体、阳性和阴性树突以及阴性轴突终末,分别形成轴-体突触、轴-树突触和轴-轴突触;阴性轴突终末与阳性胞体和阳性树突分别形成轴-体和轴-树突触;(2) P物质样(SP样)和亮氨酸脑啡肽(L-Enk)样阳性轴突终末与阳性和阴性的胞体和树突,以及阴性轴突终末与阳性胞体和树突分别形成轴-体突触和轴-树突触,L-Enk样阳性轴突终末之间形成轴-轴突触;(3) 上述5-HT、SP和L-Enk样结构所形成的突触中,阴性轴突终末与阳性树突所形成的轴-树突触最多见;(4) 上述阳性轴突终末内主要含透明圆形小泡。免疫反应产物为电子密度高的物质,主要沉积于膜性细胞器的表面、透明圆形小泡和部分颗粒囊泡内和小泡膜上。     

大鼠后根第一级传入纤维在脊髓胶状质内的溃变和突触联系

用切断后根方法在透射电镜下观察了大鼠后根第一级传入纤维在脊髓胶状质内的溃变和突触联系。切断脊神经后根24小时后,胶状质内出现明显的溃变终末。量最多又持续时间最长的溃变是电子致密型溃变,此外,也观察到了少数的电子透明型溃变和神经微丝型溃变;溃变终末大部分位于胶状质突触小球的中央。据统计,电子致密型溃变作为突触前成分与胶状质内的树突或树突棘形成轴—树突触者占98.8％,作为突触后成分与周围轴突形成轴—轴突触者占1.2％。     

Fine distribution of substance P-like immunoreactivity in the dorsal nucleus of the vagus nerve in cats

The ultrastructure of substance P (SP)-immunoreactive elements in the cat dorsal motor nucleus of the vagus nerve was examined using pre- and post-embedding immunocytochemical procedures. Substance P-like immunoreactivity was observed in axon terminals and axon fibres which were mostly unmyelinated. Quantitative data showed that at least 16% of axon terminals contained SP. Their mean diameter was larger than that of their non-immunoreactive counterparts. Most (83%) SP-containing terminals were seen to contact dendrites but some were observed adjoining soma or entirely embedded in the cytoplasm of vagal neurons (4.5%). Only 0.5% were observed to contact soma of internuerons. A few immunoreactive axon terminals (4%) were observed in contact with non-immunoreactive axon terminals. Round agranular vesicles and numerous dense core vesicles were visible in most SP-containing axon terminals (84.6%). The immunogold procedure showed the preferential subcellular location of SP to be dense core vesicles. In 32.4% of cases, SP-containing terminals were involved in synaptic contacts that were generally of the asymmetrical Gray type 1 and mainly apposed dendrites. The theoretical total of synaptic contacts was 74.5% and this suggests the existence of weak non-synaptic SP innervation involving approximately 25% of SP-containing axon terminals. No axo-axonic synapses were observed in the dorsal vagal nucleus. These results support the hypothesis that SP found in the dorsal vagal nucleus originates partly from vagal afferents and is involved in direct modulation of visceral functions mediated by vagal preganglionic neurons.     

大鼠下丘脑弓状核突触的衰老性变化

用透射电镜结合体视学方法，对３月龄、１０月龄和３０～３４月龄大鼠弓状核突触进行了定性和定量研究。结果显示：老龄组大鼠神经毯呈萎缩变性相，大树突内脂褐素增多，小到中等大小的树突出现空泡变性、多泡体和膜被多层体等，棘萎缩减少；轴突终末内突触囊泡减少而大颗粒囊泡积聚，部分突触前、后膜变薄、缩短或间断，突触小球少见；轴－体、轴－树和轴－棘突触数减少，突触密度、突触连接带面密度和突触膜总长度降低，ＧｒａｙⅠ型和即Ⅱ型突触间隙增宽。上述结果表明，老年弓状核突触在数量、形态和结构上发生了衰老性改变，这是导致下丘脑神经内分泌衰老障碍的主要原因之一。     

Electron microscopic study of GABA-immunoreactive neuronal processes in the superficial gray layer of the rat superior colliculus: their relationships with degenerating retinal nerve endings

Summary GABA-immunoreactive neuronal elements were detected in the stratum griseum superficiale or superficial gray layer of the rat superior colliculus in an electron microscopic study, using postembedding immunocytochemistry with protein A-gold as a marker. In addition to neuronal somata, two types of GABA-immunoreactive neuronal processes were observed. Numerous profiles of axon terminals (1 m in diameter) with clear round or pleomorphic synaptic vesicles and mitochondria were found to establish mostly symmetrical synaptic contacts with GABA-immunonegative dendrites of various diameters. Some axosomatic synapses could also be observed. The gold particle density in this axon terminal compartment was between seven and 13 times the background level. The stratum griseum superficiale also included GABA-immunoreactive dendrites, some of which contained clear synaptic vesicles. These dendritic profiles always formed the presynaptic component of dendrodendritic synaptic contacts. The density of the gold particles in the dendritic compartment, taken as a whole, was between three and 13 times the background level. Furthermore, the relationship between the GABA-immunoreactive neuronal elements and degenerating retinal nerve endings identified in the left stratum griseum superficiale following enucleation of the right eye was investigated after a 7-day survival period. The profiles of degenerating retinal nerve endings (0.7 m in diameter) were found to be devoid of any specific labelling. Most of the retinal boutons established axodendritic synapses of the asymmetrical type with an immunonegative dendrite, which was also contacted in some cases by a GABA-immunopositive axon terminal. Other retinal endings were presynaptic to GABA-immunopositive dendritic profiles with synaptic vesicles, some of which were found to contact in turn an unlabelled dendrite, thereby completing serial synaptic relationships. More rarely, retinal endings formed the presynaptic component of possible axoaxonic synapses with GABA-positive terminals presumed to be axonic in nature. It can be concluded that the retinal input to the superficial gray layer often converges with a GABAergic axonal input on a dendritic target, the neurotransmitter specificity of which is unknown. In other cases, retinal terminals synaptically contact GABA-immunolabelled conventional and presynaptic dendrites and probably also some axon terminals; this might provide an anatomical substrate for the control of GABA release from these GABAergic processes. These results indicate that transmitter GABA plays an important role in retinocollicular transmission.     

Light and electron microscopic observations on the inner plexiform layer of the rabbit retina

By comparison of electron micrographs with light microscopical specimens impregnated with the Golgi technique, the large endings of the rod bipolar cells have been identified in the innermost region of the inner plexiform layer of the rabbit retina. The rod bipolar endings contain ribbons and synaptic vesicles, do not synapse with the perikaryon of the ganglion cells, are presynaptic to ganglion cell dendrites and to nerve processes which contain synaptic vesicles but lack ribbons. In these synaptic contacts a ribbon is closely associated with the presynaptic membrane and a dense web of fuzzy material is adherent to the cytoplasmic aspect of the postsynaptic membrane. Commonly, one of these synaptic contacts involves a rod bipolar ending and two postsynaptic processes. The postsynaptic process which is provided with synaptic vesicles is often, in turn, presynaptic to the same rod bipolar ending. This synaptic contact is characterized by the presence of a cluster of vesicles closely related to the presynaptic membrane, whereas the postsynaptic membrane lacks a definite subsynaptic web. In the intermediate and scleral regions of the inner plexiform layer endings containing ribbons and synaptic vesicles show with neighboring nerve processes a synaptic pattern similar to the rod bipolar endings. Nerve processes containing synaptic vesicles but lacking ribbons are presynaptic to the perikaryon and dendrites of the ganglion cells; the synaptic contact shows a cluster of vesicles adherent to the presynaptic membrane. Bipolar cells are proposed as the source of the ribbon containing processes while amacrine cells are proposed as the source of the processes devoid of ribbons and presynaptic to both bipolar endings and ganglion cell dendrites and perikarya.     

Fine structures of nerve fibers with corticotropin-releasing factor-like immunoreactivity in the rat lateral septum

The fine structures of nerve fibers with corticotropin-releasing factor (CRF)-like immunoreactivity in the rat lateral septum were investigated by means preembedding immunoelectron microscopy. A number of CRF axon terminals formed synapses with cell bodies of non-immunoreactive septal neurons. They occasionally had broad terminal bulges whose subregions showed little or no immunoreactivity for CRF. CRF axon terminals were also in synaptic contact with non-immunoreactive dendrites or dendritic spines. Some dendrites with CRF were postsynaptic to non-immunoreactive axon terminals.     

GABAergic innervation of rat abducens motoneurons retrogradely labelled with HRP: quantitative ultrastructural analysis of cell bodies and proximal dendrites

Summary In this quantitative electron microscopic study we investigated the distribution of GABA axon terminals on rat abducens motoneurons by combining retrograde labelling of motoneurons with post-embedding immunodetection of GABA. We analysed the synapses on 13 cell bodies and 60 proximal dendritic profiles distributed along the entire rostro-caudal extent of the nucleus. For each of these two compartments, we analysed 1754 and 1176 axon terminals in contact with 6042 and 3299 m of postsynaptic membrane. The axon terminals were classified as Sv-type (containing spherical vesicles) or Pv-type (containing pleomorphic vesicles). The GABAergic terminals contained pleomorphic vesicles and established mainly symmetrical synaptic contacts. Their apposition lengths were greater than those of unlabelled terminals. On cell bodies, the percentage of GABAergic synaptic covering varied from 2.5% to 14.1% and the synaptic frequency of GABAergic axon terminals varied from 0.6% to 8.9%. These two parameters were significantly correlated with the diameter of the motoneurons. The percentage of synaptic covering and synaptic frequency were smaller on dendrites of small motoneurons than on those of large ones. The proximal dendrites of small motoneurons had a lesser GABAergic innervation than large ones. The total synaptic covering and frequency were smaller on somata than on dendrites. However, the percentage of synaptic covering by GABA terminals was higher on cell bodies than on proximal dendrites.     

Direct synaptic connections between corticothalamic axon terminals and interneurons in the cat ventrobasal complex

Lesion-induced degeneration was combined with immunocytochemistry to study, with electron microscopy, the synaptic connectivity between corticothalamic axon terminals from the first and second somatosensory areas and local circuit neurons of the ipsilateral ventrobasal complex (VB), selectively labelled with an antibody raised against gamma-aminobutyric acid (GABA). Four days from the cortical ablation many degenerating axon terminals, forming asymmetric synapses, were found on dendritic trees of both labelled and unlabelled neurons of VB and occasionally on presynaptic dendrites. The main finding of the present paper is that 64.01% of degenerating axon terminals synapsed with GABA-immunopositive dendrites, suggesting that the principal target of the cortical projection to VB are local circuit neurons.