Distribution of somatostatin immunoreactivity in the forebrain of the squirrel monkey: basal ganglia and amygdala.

The distribution of somatostatin immunoreactivity in the basal ganglia and amygdala of the squirrel monkey (Saimiri sciureus) was studied with specific polyclonal antibodies directed against somatostatin-28 and somatostatin-28(1-12). Both antibodies gave similar results with regard to the distribution of somatostatin-immunoreactive neuronal profiles. A moderately dense and highly heterogeneous network of somatostatin-positive fibers was observed throughout the striatum. A dorsoventral gradient of increasing immunoreactivity was noted in the striatum and the caudate nucleus was found to strain generally less intensely than the putamen. The immunoreactive fibers within the striatum were mostly thin and varicose and formed patches corresponding to the striosomes, as visualized on adjacent sections immunostained for calbindin. Although some somatostatin cell bodies rimmed the striosomes, most of the positive cells were rather uniformly scattered in the striatum. These medium-sized cells were significantly smaller in the caudate nucleus (93 microns2, S.D. = 26 microns2) than in the putamen (122 microns2, S.D. = 39 microns2), but their density was significantly higher in the caudate nucleus (29.7 cells/mm2, S.D. = 8.8 cells/mm2) than in the putamen (20.5 cells/mm2, S.D. = 7.0 cells/mm2). The nucleus accumbens stained moderately and positive cell bodies were evenly dispersed throughout this structure. In contrast, the olfactory tubercle displayed a heavily stained neuropil but positive neurons were encountered only in its polymorph layer. In the sublenticular region, dense fiber plexuses appeared in register with nonreactive cell clusters of the nucleus basalis of Meynert and of the nucleus of the anterior commissure. More caudally, a dense bundle of positive fibers was observed at the level of the ansa lenticularis, the inferior thalamic peduncle, and the adjoining bed nucleus of the stria terminalis. Several fibers contributing to this bundle were of the woolly type. Woolly fibers also coursed in the substantia innominata between the ventral aspect of the globus pallidus and the optic tract, and ascended in the internal medullary lamina separating the internal and external segments of the globus pallidus. Somatostatin-immunoreactive cell bodies were uniformly scattered throughout the substantia innominata. The various nuclei of the amygdala showed a wide range of immunoreactivity. The central nucleus was lightly reactive, whereas the intercalated masses displayed a moderate staining. A dorsoventral gradient of immunostaining was noted in the ventrolateral portion of the amygdala, the lateral nucleus being moderately to densely stained and the basal nucleus very lightly to lightly immunoreactive.(ABSTRACT TRUNCATED AT 400 WORDS)     

Quantitative imaging of substance P in the human brain using a brain mapping analyzer

The distribution of substance P (SP)-like immunoreactive neurons in the brains of aged normal human was analyzed quantitatively. Consecutive coronal sections in which the striatum and the substantia nigra were exposed widely, were obtained from the right hemisphere and stained immunohistochemically for SP. Each stained section was divided into approximately three million microareas and the immunohistochemical fluorescence intensity in each area was measured using a human brain mapping analyzer, which is a microphotometry system for analysis of the distribution of neurochemicals in a large tissue slice. These distributions are displayed in color and monochromatic graphics. In the analyzed brain regions, conspicuously intense SP-like immunoreactivity was observed in the substantia nigra and the internal segment of the globus pallidus. Within the substantia nigra, the SP-like immunoreactive intensity in the pars compacta was 25%, higher than that in the pars reticulata, and the distribution of melanin-containing neurons corresponded well to the distribution of the SP-containing structures. SP-like immunoreactive intensity in the internal segment of the globus pallidus, which was lower than that in the substantia nigra, was approximately twice as high as that in the external segment of the globus pallidus. Very intense immunoreactivity was localized at the most medial area of the internal segment of the globus pallidus. The SP-like immunoreactive intensity in the caudate nucleus and putamen was moderate, and the distribution was heterogeneous and observed in patches.     

降钙素基因相关肽在大鼠纹状体内分布的生后发育研究

目的：了解大鼠纹状体内的钙离子基因相关肽（ＣＧＲＰ）在纹状体和苍白球内分布的生后发育变化。方法：对出生后１天至１年的大鼠脑行冠状组织切片,尔后进行ＣＧＲＰ的ＡＢＣ法免疫细胞化学染色。结果：ＣＧＲＰ在纹状体的近尾侧部主要分布在纹状体的边缘区,为大量的密度很高的免疫反应阳性纤维,在纹状体的远尾侧部几乎遍布整个尾壳核,但以其外侧缘和腹侧为多,在尾壳核的外侧部形成一条浓密的阳性纤维带。苍白球内可见少量的ＣＧＲＰ免疫反应纤维存在,多靠近苍白球的内侧缘。ＣＧＲＰ在纹状体内分布的生后发育特征为：Ｐ０１时边缘区有少量阳性纤维分布,Ｐ０５时形成带状纤维分布,Ｐ１０时尾壳核腹外侧部有阳性纤维分布,Ｐ３０以后同成年。结论：ＣＧＲＰ在纹状体和苍白球内具有独特的分布特征和生后发育规律。     

A light and electron microscopic study of the GABA transporter GAT-3 in the monkey basal ganglia and brainstem

The present study aimed to elucidate the distribution of the GABA transporter GAT-3 in the monkey basal ganglia and brainstem. Very dense GAT-3 immunoreactivity was observed in the medial septum, diagonal band, basal nucleus of Meynert, thalamus, globus pallidus, and substantia nigra. Moderate levels were observed in the subthalamic nucleus, periaqueductal grey, spinal trigeminal and vestibular nuclei. A general light level of staining was observed in the remainder of the brainstem regions, and very light staining was observed in the caudate nucleus and putamen. Electron microscopy showed that GAT-3 immunoreactivity was present in cell bodies with light cytoplasm and dense bundles of glial filaments, and features of astrocytes. Large numbers of astrocytic processes were also labeled in the neuropil. The cell bodies and processes of neurons were unlabeled. Further study is necessary to elucidate GAT-3 expression in neurological conditions, including hyperalgesia and Parkinson's disease.     

DARPP-32在大鼠全脑的定位分布

目的 探讨DARPP-32在大鼠全脑的表达分布特点.方法 应用免疫组织化学染色技术对大鼠脑内DARPP-32的表达分布进行观察.结果 免疫组织化学染色结果显示,强阳性的DARPP-32染色大部分分布于基底节区和前嗅皮质区,主要分布在伏隔核、尾壳核及杏仁核复合体的神经元胞体内,以及苍白球、腹侧苍白球、脚间核及黑质网状部的...     

Correlation between met-enkephalin and substance P immunoreactivity in the primate globus pallidus

Using immunohistochemical techniques, the distribution of enkephalin and substance P immunoreactive fibers and terminals was studied in the globus pallidus of the non-human primate. In the external segment of the globus pallidus, enkephalin immunoreactivity was very dense while only sparse to moderate substance P staining was observed. Enkephalin immunoreactivity in the inner portion of the internal segment was moderate while such fibers were sparse in the outer portion of the internal segment. Substance P immunoreactivity was dense throughout the internal segment of the globus pallidus.The pattern of enkephalin and substance P immunoreactivity in the globus pallidus of the non-human primate as reported in the present study is of interest with regard to pallidal efferents. The pallidosubthalmic projection, arising from the external segment of the globus pallidus, is likely to be strongly influenced by the very dense network of enkephalin immunoreactive fibers and terminals in this region. Conversely, substance P immunoreactive elements are sparse in the external segment, and are, therefore, unlikely to influence significantly activity carried by the pallidosubthalmic projection. Since the inner portion of the internal segment contains moderate enkephalin immunoreactivity and dense substance P immunoreactivity, the information carried by the lenticular fasiculus may be modulated by both of these putative transmitters. On the other hand, based on the densities of immunoreactivity, the ansa lenticularis, which arises from the outer portion of the internal segment, is likely to be under greater influence of the dense substance P projection to this area.     

Immunohistochemical localization of cytochrome P-450 in rat brain

The presence of cytochrome P-450 in rat brain was studied by immunohistochemistry, using antibodies to cytochrome P-450 purified from livers of phenobarbital- or 3-methylcholanthrene-treated rats. Immunoreactive nerves were observed only in brain sections incubated with immunoglobulin-G to 3-methylcholanthrene-induced cytochrome P-450. This immunoreactivity was abolished by preabsorption of the antibody with highly purified rat liver cytochrome P-450c, the major cytochrome P-450 isozyme induced by 3-methylcholanthrene, but was not affected by other cytochrome P-450 isozymes induced by phenobarbital, isosafrole or pregnenolone-16-carbonitrile.

The most abundant concentration of nerve fibers with cytochrome P-450 immunoreactivity was observed in the globus pallidus. Immunoreactive fibers were also observed in the caudate putamen, amygdala, septum, ventromedial nucleus of the hypothalamus, medial forebrain bundle, ansa lenticularis, and ventromedial portion of the internal capsule and crus cerebri. Cell bodies with cytochrome P-450 immunoreactivity were observed in the caudate putamen and in the perifornical area of the hypothalamus. The cytochrome P-450 immunoreactive fibers in the globus pallidus and caudate putamen do not appear to emanate from cell bodies in the substantia nigra, since there was no reduction in the density of these fibers after unilateral stereotaxic electrolytic destruction of the substantia nigra (zona compacta and reticulata). Our data suggest that these striatal nerve processes are derived from cell bodies within the caudate putamen itself.

The present results indicate that rat brain contains a form of cytochrome P-450 with antigenic relatedness to the hepatic 3-methylcholanthrene-inducible cytochrome P-450c. This cytochrome P-450 isozyme was detected in brain areas which metabolize morphine and convert estradiol and estrone into catecholestrogens, which suggests an important role for this enzyme in the metabolism of both ex´ogenous and endogenous compounds in brain.     

Distribution of catecholaminergic afferent fibres in the rat globus pallidus and their relations with cholinergic neurons

The topographical distribution of catecholaminergic nerve fibres and their anatomical relationship to cholinergic elements in the rat globus pallidus were studied. Peroxidase–antiperoxidase and two-colour immunoperoxidase staining procedures were used to demonstrate tyrosine hydroxylase (TH), dopamine β-hydroxylase (DBH), phenylethanolamine N-methyltransferase (PNMT) and choline acetyltransferase (ChAT) immunoreactivities, combined with acetylcholinesterase (AChE) pharmacohistochemistry. TH immunoreactive nerve fibres were seen to enter the globus pallidus from the medial forebrain bundle. The greatest density of such fibres was found in the ventral region of the globus pallidus, which was also characterized by the greatest density of ChAT immunoreactive neurons. TH immunoreactive nerve fibres showed varicose arborizations and sparse boutons, which were occasionally seen in close opposition to cholinergic structures. In all regions of the globus pallidus, there were also larger, smooth TH immunoreactive nerve fibres of passage to the caudate putamen. A smaller number of DBH immunoreactive nerve fibres and terminal arborizations were found in the substantia innominata, internal capsule and in the globus pallidus bordering these structures. A few PNMT immunoreactive nerve fibres in the substantia innominata and internal capsule did not enter the globus pallidus. Electron microscopy revealed TH immunoreactive synaptic profiles in the ventromedial area of the globus pallidus corresponding to the nucleus basalis magnocellularis of Meynert (nBM). These made mainly symmetrical and only a few asymmetrical synaptic contacts with dendrites containing AChE reaction product. The results indicate that cholinergic structures in the nBM are innervated by dopaminergic fibres and terminals, with only a very small input from noradrenergic fibres.     

The striatal mosaic in primates: patterns of neuropeptide immunoreactivity differentiate the ventral striatum from the dorsal striatum.

Patterns of immunoreactivity for calcium-binding protein, tyrosine hydroxylase and four neuropeptides in the ventral striatum (nucleus accumbens, olfactory tubercle and ventromedial parts of the caudate nucleus and putamen) were compared to patterns of these markers in the dorsal striatum (the majority of the neostriatum) in rhesus monkey. The striatal mosaic was delineated by calcium-binding protein and tyrosine hydroxylase immunoreactivities. Both markers were found preferentially in the matrix of the dorsal striatum. The mosaic configurations of tyrosine hydroxylase, but not calcium-binding protein immunoreactivity, were similar in dorsal and ventral striatal regions. Substance P and leucine-enkephalin were not distributed homogeneously; distinct types and the prevalence of patches of substance P and leucine-enkephalin immunoreactivity distinguish the dorsal striatum from the ventral striatum and distinguish the caudate nucleus from the putamen. In the dorsal striatum, substance P and leucine-enkephalin patches consist of dense islands of immunoreactive neurons and puncta or clusters of immunoreactive neurons marginated by a dense rim of terminal-like puncta; the matrix was also enriched in leucine-enkephalin-immunoreactive neurons but contained less substance P-immunoreactive neurons. Patches were more prominent in the caudate nucleus than in the putamen. In the caudate, compartments low in tyrosine hydroxylase and calcium-binding protein immunoreactivities corresponded to cytologically identified cell islands and to patches enriched in substance P and leucine-enkephalin. These patches had a discrete infrastructure based on the location of substance P and leucine-enkephalin-immunoreactive neurons and terminals. In the ventral striatum, patches that showed low levels of substance P and leucine-enkephalin immunoreactivities were embedded in a matrix rich in immunoreactive cell bodies, fibers and terminals. In the accumbens, regions showing little tyrosine hydroxylase were in spatial register with patches low in substance P and leucine-enkephalin. Neurotensin- and somatostatin-immunoreactive neurons or processes were also compartmentally organized, particularly in the ventral striatum. Neurotensin-immunoreactive neurons were present predominantly in the nucleus accumbens but not in the dorsal striatum. Some regions enriched in neurotensin immunoreactivity were spatially registered with zones low in tyrosine hydroxylase, substance P and zones enriched in leucine-enkephalin. Areas enriched in somatostatin-immunoreactive processes overlapped with both tyrosine hydroxylase-rich and -poor regions in the ventral striatum. Our results show that the chemoarchitectonic topography of the striatal mosaic is different in the dorsal and ventral striatum of rhesus monkey and that the compartmental organization of some neurotransmitters/neuropeptides in the ventral striatum is variable and not as easily divisible into conventional patch and matrix regions as in the dorsal striatum.(ABSTRACT TRUNCATED AT 400 WORDS)     

Spatiotemporal expression gradients of the carbohydrate antigen (CD15) (Lewis X) during development of the human basal ganglia.

The developmental expression pattern of the carbohydrate epitope CD15 (Lewis X, Le X) (alpha1-->3-fucosyl-N-acetyl-lactosamine) has been immunocytochemically evaluated in paraffin sections within the human basal ganglia from 10 weeks gestation to three years after birth. At 11 weeks of gestation, CD15 (Le X) positive radial glial cells were located in the anterior and dorsal parts of the lateral ganglionic eminence. Their processes ran from the subventricular zone radially in a highly ordered fashion to the dorsolateral margin of the caudate nucleus and further to the lateral rim of the putamen. At 12 weeks of gestation, strands of CD15 (Le X) material continued to the pial surface, forming a continuous CD15 (Le X) positive borderline separating the accumbens nucleus and olfactory tubercle from the piriform cortex. At 13 weeks of gestation the dorsal putamen was completely CD15 (Le X) immunoreactive along its perimeter and CD15 (Le X) patches, consisting of fine granular material, appeared at the dorsolateral margin of the putamen at this age; while the first CD15 (Le X) patches in the caudate nucleus were observed four weeks later. The matrix compartment of the caudate and dorsal putamen became gradually stained by granular CD15 (Le X) positive material into which CD15 (Le X) immunoreactive somata were embedded. The striking contrast in staining between patch and matrix compartments disappeared shortly after birth. The ventral striatum did not become immunoreactive until the last few weeks before birth. After the formation of CD15 (Le X) positive patches in the striatum (from 12 weeks of gestation), delicate CD15 (Le X) fibres, often accumulated in bundles and related to the striatal patches, became apparent coursing towards the external pallidal lamina and the globus pallidus. Immunoreactivity in the globus pallidus itself was transient, emerging from 16 weeks of gestation, reaching a peak at 21 weeks of gestation and disappearing by birth. Both processes, i.e. the occurrence of CD15 (Le X) striatopallidal fibres and the emerging immunoreactivity in their pallidal target, may be interrelated, so that ingrowing CD15 (Le X) positive axons from the striatum provoke CD15 (Le X) expression in the external and internal pallidum. The variable patterns and intensities of CD15 (Le X) expression are possibly related to periods of maturation of the striatum and the establishment of functional interactions within the basal ganglia. Differential staining of patch and matrix in the developing neostriatum suggests that a distinct phase of cellular adhesion or dishesion mediated by the CD15 (Le X) epitope occurs during establishment of the patch and matrix regions.     

Multiple benzodiazepine receptors in the human basal ganglia: a detailed pharmacological and anatomical study

The pharmacological characteristics and anatomical distribution of benzodiazepine receptors in the striatum (dorsal striatum, comprising the caudate nucleus and putamen, and ventral striatum) and globus pallidus (dorsal pallidum, comprising the external and internal segments, and ventral pallidum) of the human basal ganglia were examined in twelve cases aged 4-71 years. The pharmacology of the receptors was studied using computerized, non-linear least-squares regression analysis of [3H]flunitrazepam displacement by flunitrazepam, CL218,872 and ethyl beta-carboline-3-carboxylate binding to membranes. The results showed that the dorsal striatum (caudate nucleus and putamen) contained higher concentrations of receptors than the dorsal pallidum (external and internal segments). The dorsal striatum contained equal numbers of sites with high affinity (Type I) and low affinity (Type II) for CL218,872 and ethyl beta-carboline-3-carboxylate whereas the globus pallidus contained sites with only high affinity (Type I) for these ligands. The anatomical localization of the benzodiazepine receptor subtypes (Type I and II) was studied using quantitative autoradiography following in vitro labelling of cryostat sections with [3H]flunitrazepam in the absence or presence of the discriminating ligand CL218,872. The autoradiograms showed that benzodiazepine receptors were distributed throughout all regions of the human striatum in a heterogeneous fashion, i.e. high-density patches of receptors were set against a background matrix of lower receptor densities. The highest densities of receptors were seen in the ventral striatum where the patches were particularly extensive and showed densities 56% higher than the receptor densities in the dorsal striatal patches. Quantitative analysis showed that the patches in all striatal regions contained mainly Type II receptors (83%-86%) whereas the matrix regions in the ventral and dorsal striatum contained different proportions of the receptor subtypes; Type I receptors predominated (60%) in the matrix of the ventral striatum and Type II receptors predominated (67%-71%) in the matrix of the dorsal striatum. By contrast, the autoradiograms showed that the globus pallidus contained considerably lower concentrations of receptors than the striatum. The highest density of receptors in the globus pallidus was present in the ventral pallidum with successively lower concentrations in the external (26% less) and internal (66% less) segments of the dorsal pallidum. In agreement with the membrane binding studies the receptors in the globus pallidus were mainly of the Type I variety.(ABSTRACT TRUNCATED AT 400 WORDS)     

大鼠神经系统内5-羟色胺_(1A)受体亚型的定位分布(英文)

应用免疫组织化学技术观察了大鼠神经系统内 5 -羟色胺 1A受体亚型 ( 5 -HT1 AR)免疫阳性结构的分布。结果显示 :5 -HT1 AR免疫阳性结构主要分布于梨状皮质、隔核、丘脑腹后核、丘脑网状核、杏仁基外侧核、Purkinje细胞层、红核、面神经核、斜方体核等 ;在海马、额叶皮质、丘脑背内侧核、脚间核、三叉神经中脑核、中缝背核、三叉神经脊束核、脊髓背角浅层、背根神经节和三叉神经等结构内有中等强度的分布 ;在嗅球、尾壳核、苍白球、斜角带核、终纹床核、缰核、黑质、上橄榄等部位有弱的分布。本文的结果提示 5 -HT1 AR阳性结构广泛地分布在大鼠神经系统 ,它们可能介导 5 -HT在神经系统中的多种生理功能     

基于磁共振T1成像的帕金森病相关脑结构体积差异性分析

目的 应用3.0T磁共振T1成像分析帕金森病（PD）患者脑结构如尾状核、壳核、苍白球、中脑、背侧丘脑、海马、杏仁核体积的变化,探讨MRI体积测量在PD引起形态学改变的应用及在早期诊断上的意义。 方法 采用3.0T MRI对40例早中期PD患者和年龄匹配的32名正常人进行扫描,分别测量出全脑体积、双侧尾状核、双侧壳核、双侧苍白球、中脑、双侧背侧丘脑、双侧海马、双侧杏仁核的体积,对体积值标准化处理后,使用SPSS 22.0软件对数据进行统计学分析。 结果 比较早中期PD患者和正常对照组发现, PD患者的全脑、双侧尾状核、双侧海马、双侧杏仁核的标准化体积和正常人比较差异无显著性（P>0.05）;双侧壳核、双侧苍白球、双侧背侧丘脑、中脑标准化体积差异有显著性（P<0.05）。 结论 基于MRI测量尾状核、壳核、苍白球、中脑、背侧丘脑、海马与杏仁核的体积的变化能为PD的辅助诊断提供一定帮助。     

The pattern of neurodegeneration in Huntington's disease: a comparative study of cannabinoid, dopamine, adenosine and GABA(A) receptor alterations in the human basal ganglia in Huntington's disease

In order to investigate the sequence and pattern of neurodegeneration in Huntington's disease, the distribution and density of cannabinoid CB(1), dopamine D(1) and D(2), adenosine A(2a) and GABA(A) receptor changes were studied in the basal ganglia in early (grade 0), intermediate (grades 1, 2) and advanced (grade 3) neuropathological grades of Huntington's disease. The results showed a sequential pattern of receptor changes in the basal ganglia with increasing neuropathological grades of Huntington's disease. First, the very early stages of the disease (grade 0) were characterized by a major loss of cannabinoid CB(1), dopamine D(2) and adenosine A(2a) receptor binding in the caudate nucleus, putamen and globus pallidus externus and an increase in GABA(A) receptor binding in the globus pallidus externus. Second, intermediate neuropathological grades (grades 1, 2) showed a further marked decrease of CB(1) receptor binding in the caudate nucleus and putamen; this was associated with a loss of D(1) receptors in the caudate nucleus and putamen and a loss of both CB(1) and D(1) receptors in the substantia nigra. Finally, advanced grades of Huntington's disease showed an almost total loss of CB(1) receptors and the further depletion of D(1) receptors in the caudate nucleus, putamen and globus pallidus internus, and an increase in GABA(A) receptor binding in the globus pallidus internus.These findings suggest that there is a sequential but overlapping pattern of neurodegeneration of GABAergic striatal efferent projection neurons in increasing neuropathological grades of Huntington's disease. First, GABA/enkephalin striatopallidal neurons projecting to the globus pallidus externus are affected in the very early grades of the disease. Second, GABA/substance P striatonigral neurons projecting to the substantia nigra are involved at intermediate neuropathological grades. Finally, GABA/substance P striatopallidal neurons projecting to the globus pallidus internus are affected in the late grades of the disease. In addition, the finding that cannabinoid receptors are dramatically reduced in all regions of the basal ganglia in advance of other receptor changes in Huntington's disease suggests a possible role for cannabinoids in the progression of neurodegeneration in Huntington's disease.     

The suprachiasmatic nucleus of the golden hamster: immunohistochemical analysis of cell and fiber distribution

The distribution of vasopressin-, vasoactive intestinal polypeptide-, somatostatin-, avian pancreatic polypeptide-, 5-hydroxytryptamine- and glutamic acid decarboxylase-like immunoreactivity was analyzed in the suprachiasmatic nuclei of male and female golden hamsters. Vasopressin. Vasopressin-like immunoreactivity is localized within neurons, dendrites and axons throughout the rostrocaudal extent of the suprachiasmatic nuclei. Immunoreactive perikarya are restricted to the dorsomedial aspect of each nucleus and occur in highest numbers within the intermediate two-thirds of the rostrocaudal axis. Axons containing vasopressin-like immunoreactivity form a dense plexus in the dorsomedial suprachiasmatic nuclei and in a vertical column at the lateral aspect of each nucleus. Somatostatin. Somatostatin-like immunoreactivity is also contained in neurons in the dorsomedial aspect of the suprachiasmatic nuclei and in thin varicose axons distributed throughout the suprachiasmatic nuclei in a pattern similar to that of vasopressin-immunoreactive axons. Vasoactive intestinal polypeptide. Vasoactive intestinal polypeptide-immunoreactive neurons are concentrated in the ventrolateral portion of each nucleus and occur almost exclusively within the intermediate two-thirds of the rostrocaudal axis. An extremely dense plexus of varicose axons exhibiting vasoactive intestinal polypeptide-like immunoreactivity extends throughout the suprachiasmatic nuclei and passes out of the dorsal aspect of each nucleus into the periventricular and anterior hypothalamic areas. Avian pancreatic polypeptide. Avian pancreatic polypeptide-like immunoreactivity is restricted to axons which arborize within the ventrolateral aspect of each nucleus. These fibers extend throughout the rostrocaudal extent of each nucleus and partially overlap the terminal field of retinal afferents. Glutamic acid decarboxylase. A very dense plexus of axonal varicosities exhibiting glutamic acid decarboxylase-like immunoreactivity fills both the dorsomedial and ventrolateral portions of the suprachiasmatic nuclei throughout the rostrocaudal extent of each nucleus. Lightly stained immunoreactive perikarya also occur throughout the suprachiasmatic nuclei. 5-Hydroxytryptamine. 5-Hydroxytryptamine-like immunoreactivity is restricted to axons which form a plexus in the ventromedial portion of each nucleus that is most dense in the intermediate two-thirds of the rostrocaudal axis.(ABSTRACT TRUNCATED AT 400 WORDS)     

Distribution of the parvalbumin, calbindin-D28K and calretinin immunoreactivity in globus pallidus of the Brazilian short-tailed opossum (Monodelphis domestica)

This study describes the topography, borders and divisions of the globus pallidus in the Brazilian short-tailed opossum (Monodelphis domestica) and distribution of the three calcium binding proteins, parvalbumin (PV), calbindin D-28k (CB) and calretinin (CR) in that nucleus. The globus pallidus of the opossum consists of medial and lateral parts that are visible with Nissl or Timm's staining and also in PV and CR immunostained sections. Neurons of the globus pallidus expressing these proteins were classified into three types on the basis of size and shape of their soma and dendritic tree. Type 1 neurons had medium-sized fusiform soma with dendrites sprouting from the opposite poles. Neurons of the type 2 had medium-to-large, multipolar soma with scarce, thin dendrites. Cell bodies of type 3 neurons were small and either ovoid or round. Immunostaining showed that the most numerous were neurons expressing PV that belonged to all three types. Density of the PV-immunopositive fibers and puncta correlated with the density of the PV-labeled neurons. Labeling for CB resulted mainly in the light staining of neuropil in both parts of the nucleus, while the CB-expressing cells (mainly of the type 2) were scarce and placed only along the border of the globus pallidus and putamen. Staining for calretinin resulted in labeling almost exclusively the immunoreactive puncta and fibers that were distributed with medium-to-high density throughout the nucleus. Close to the border of globus pallidus with the putamen these fibers (probably dendrites) were long, thin and varicous, while more medially bundles of thick, short and smooth fibers predominated. Single CR-ir neurons (all of the type 3) were scattered through the globus pallidus. Colocalization of two calcium binding proteins in one neuron was. never observed. The CB-ir puncta (probably terminals of axons projecting to the nucleus) frequently formed basket-like structures around the PV-ir neurons. Therefore, the globus pallidus in the opossum, much as that in the rat, consists of a heterogeneous population of neurons, probably playing diversified functions.     

Regional distribution of cholecystokinin binding sites in macaque basal ganglia determined by in vitro receptor autoradiography

Cholecystokinin binding sites were labeled with [3H]cholecystokinin-8, [125I]cholecystokinin-33, and [125I]cholecystokinin-8 in major structures of macaque basal ganglia by in vitro receptor autoradiography. Analysis of autoradiograms revealed areas of heavy cholecystokinin binding in the neostriatum and substantia nigra that were set off, often quite sharply, from the adjacent globus pallidus and subthalamic nucleus where labeling was, by contrast, very light. Heavy label characterized the ventromedial and posterior parts of the caudate nucleus and adjacent putamen, binding was of moderate intensity in central areas of these regions, while, the dorsolateral margin of the head of the caudate and precommissural putamen, the dorsolateral one-third of the body of the caudate, and all but the most medial and ventral portions of the posterior putamen lateral to the pallidum were sparsely labeled. The pattern of cholecystokinin binding within the neostriatum was mottled; patches of reduced label stood out from the background of more prominent binding. However, those patches were only imperfectly correlated with the striosomal organization of both the caudate nucleus and putamen as revealed by acetylcholinesterase staining. Cholecystokinin binding in the substantia nigra was also intricately patterned. Moderately dense, vertically orientated bands of label were found in the dorsal one-third to half of the pars reticulata, providing a marked contrast to the near background levels in the ventral pars reticulata and overlying pars compacta. The present study shows that heavy cholecystokinin binding is confined to particular areas within the primate basal ganglia; the pattern of label within the substantia nigra and neostriatum can be linked to intrinsic and afferent connections of these structures. The confinement of binding sites to the dorsal pars reticulata suggests an association with dendrites of pars compacta neurons which invade this region; this interpretation is consistent with recent evidence of depletion of nigral cholecystokinin binding sites in macaques following chemical lesion of dopaminergic cells of the par compacta. In the neostriatum the distribution of binding shows overlap with its topographically organized corticostriatal innervation; portions of heavily labeled striatum coincide with regions innervated by association cortex of the frontal and temporal lobes, whereas regions of diminished binding correspond to areas innervated mainly by sensory and motor cortex. These latter findings suggest that cholecystokinin may have a particularly strong influence on cognitive aspects of striatal function.     

Connectivity of striatal grafts implanted into the ibotenic acid-lesioned striatum--III. Efferent projecting graft neurons and their relation to host afferents within the grafts

Efferent projections of intrastriatally implanted striatal neurons have been studied using a combination of anterograde and retrograde axonal tracers. Adult rats subjected to a unilateral ibotenic acid lesion of the head of the caudate putamen received cell suspension grafts obtained from 14 15-day-old striatal primordia. Three and a half to 20 months after transplantation the rats received either intratransplant injections of the anterograde axonal tracer Phaseolus vulgaris leucoagglutinin or injections of fluorescent retrograde tracers. Fluoro-Gold and rhodamine-labelled latex beads, into the host globus pallidus and substantia nigra. Injections of Phaseolus vulgaris leucoagglutinin located entirely within the grafts labelled axons that ramified extensively within the tissue itself, as well as axons that extended caudally, across the graft host border, along the myelinated fascicles of the internal capsule to arborize in the medial parts of the host globus pallidus. A few axons also reached the entopeduncular nucleus. Injections of Fluoro-Gold into the host globus pallidus labelled large numbers of graft neurons, which had a prominent patchy distribution and were most abundant in the caudal portions of the grafts. Clear retrograde labelling was also seen after injection of Fluoro-Gold or rhodamine beads into the host substantia nigra, although the number of labelled graft neurons was 30-50 times lower than that seen after pallidal injections. Combined injections of Fluoro-Gold into the pallidus and rhodamine beads into the nigra showed that the vast majority of cells labelled from the nigra were also labelled by Fluoro-Gold from the pallidus. In some of the grafted and Fluoro-Gold-injected animals, the fetal donor tissue had been labelled with [3H]thymidine prior to transplantation. Many examples of neurons labelled with both [3H]thymidine and Fluoro-Gold were found after tracer injections into the host globus pallidus, and double-labelled neurons were identified also after Fluoro-Gold injections into the host substantia nigra. In several animals retrograde tracing was combined with labelling of host dopaminergic afferents (by tyrosine hydroxylase immunohistochemistry) and cortical afferents (by injections of Phaseolus vulgaris leucoagglutinin into the host frontal cortex). Comparison of adjacent sections revealed a striking overlap between the patches of Fluoro-Gold-labelled graft neurons (labelled from the host pallidum) and the dense patches of tyrosine hydroxylase-positive terminals. In addition, many of the Fluoro-Gold-labelled cell patches received a high density of cortical afferents labelled by Phaseolus vulgaris leucoagglutinin.(ABSTRACT TRUNCATED AT 400 WORDS)     

Angiotensin converting enzyme in the monkey (Macaca fascicularis) brain visualized by in vitro autoradiography.

Angiotensin converting enzyme is localized in the monkey (Macaca fascicularis) brain by in vitro autoradiography using the radiolabelled inhibitor, [125I]351A. This radioligand binds with high affinity and specificity to monkey cortical sections. Specific inhibitors of converting enzyme, lisinopril and perindoprilat complete for the radioligand binding to monkey cortex sections with inhibitory constants of 10 nM. High concentrations of angiotensin converting enzyme occur in most components of the basal ganglia including the caudate nucleus, putamen, the internal and external globus pallidus, nucleus accumbens, ventral pallidum and the reticular part of the substantia nigra. The distribution of converting enzyme in the caudate nucleus and putamen is heterogeneous, with prominent patches of higher activity. The patches in the caudate nucleus correspond closely with the acetylcholinesterase-poor striosomes. In the hypothalamus, very high levels of angiotensin converting enzyme occur in the median eminence and the pituitary stalk and high concentrations occur in the supraoptic and suprachiasmatic nuclei. Moderate, diffuse binding is observed in the median preoptic nucleus, the medial preoptic area, and in the anterior, lateral, ventromedial, posterior and arcuate nuclei. In the circumventricular organs, the subcommissural and subfornical organs exhibit high levels of angiotensin converting enzyme. The organum vasculosum of the lamina terminalis and the pineal body display moderate enzyme activities whereas the area postrema is devoid of labelling. The interpeduncular nucleus and, in the hippocampal formation, the molecular layer of the dentate gyrus are also intensely labelled. High levels of angiotensin converting enzyme activity are also detected throughout the cerebral cortex with laminations of higher activity corresponding to cell dense layers of the cortex. Layered binding is also present in the cerebellar cortex, with the most intense labelling in the molecular layer. Moderate concentrations of converting enzyme also occur in the paraventricular, medial habenula, lateral habenula and central median nuclei of the thalamus, the amygdala, the central gray, the locus coeruleus, the parabrachial nucleus and dorsal tegmental nucleus. The dorsal vagal complex, inferior olivary nucleus and the caudal subnucleus of the spinal trigeminal nucleus all display high levels of binding. Moderate, diffuse labelling is found throughout the reticular region and is also present in the gracile and cuneate nuclei. Although the overall distribution of angiotensin converting enzyme in the monkey brain resembles that in the rat, there are some striking differences. These include the high levels of binding throughout the monkey cerebral cortex and in the interpeduncular and suprachiasmatic nuclei.