Localization of mRNA for beta-adrenergic receptor kinase in the brain of adult rats.

A cDNA encoding rat beta-adrenergic receptor kinase (beta-ARK) was cloned and sequenced. By in situ hybridization histochemistry of adult brain, beta-ARK mRNA was expressed intensely in the cerebellar granule cell layer and moderately in the hippocampal pyramidal cells and dentate granule cells. The neocortex and piriform cortex expressed it moderately to weakly, whereas the thalamus and hypothalamus expressed it weakly to faintly. No significant expression of the mRNA was detected in the caudate-putamen. Weak expression of beta-ARK mRNA was detected in several nuclei of the brainstem and in the spinal gray matter.     

Effects of aminoguanidine on cerebral ischemia in mice: comparison between mice with and without inducible nitric oxide synthase gene

The distribution of the high-affinity choline transporter (CHT) was determined in the human and macaque monkey spinal cord using in situ hybridization histochemistry and immunohistochemistry. Signals for CHT mRNA were observed in somatic motor neurons, sympathetic preganglionic neurons, and neurons in the medial part of lamina VII. The mRNA for CHT was co-localized in single neurons with the mRNAs for vesicular acetylcholine transporter and cholineacetyltransferase. These same cholinergic neuronal groups were labeled by immunohistochemistry for human CHT. Of somatic motor neurons, smaller cell bodies of gamma-motor neurons were labeled very intensely, whereas larger cell bodies of alpha-motor neurons showed various degrees of labeling from weak to moderately intense. Human CHT is thus a novel cholinergic marker, which not only labels cholinergic neurons, but also reveals their heterogeneity.     

家兔小脑中央核向脊髓直接投射的研究

本实验将WGA-HRP分別注入家兔脊髓一侧的颈、胸、腰等不同节段,逆行追踪小脑中央各核向脊髓的直接投射。结果表明,小脑中央核的标记神经元恒定地见于颈段(C_1～C_4)注入例动物,而未见于下颈段(C_6～C_8)和胸腰段注入例动物。标记神经元仅出现于注入侧对侧的小脑顶核及间位核的尾侧部。研究结果提示,家兔小脑顶核及间位核的尾侧部,有向颈髓的直接越边投射。本结果为进一步探讨小脑对躯体运动的调节功能提供形态学基础。     

Cholinergic neurons in the rat central nervous system demonstrated by in situ hybridization of choline acetyltransferase mRNA.

Digoxigenin-labeled RNA probes and in situ hybridization histochemistry were used to examine choline acetyltransferase gene expression in the rat central nervous system. Hybridization signal was present only in brain sections processed with the antisense riboprobe. The sense probe did not yield labeling, further validating the specificity of tissue reactivity. Telencephalic neurons containing the mRNA for the cholinergic synthetic enzyme were found in the caudate-putamen nucleus, nucleus accumbens, olfactory tubercule, islands of Calleja complex, medial septal nucleus, vertical and horizontal limbs of the diagonal band, substantia innominata, nucleus basalis, and nucleus of the ansa lenticularis. Some somata evincing hybridization signal were observed in the anterior amygdalar area, and an occasional such cell was seen in the basolateral and central amygdalar nuclei. Neurons in the cerebral cortex, hippocampus, and primary olfactory structures did not demonstrate hybridocytochemically detectable amounts of choline acetyltransferase mRNA. Thalamic cells were devoid of reactivity, with the exception of several neurons located primarily in the ventral two-thirds of the medial habenula. A few somata labeled with riboprobe were found in the lateral hypothalamus, caudal extension of the internal capsule, and zona incerta. Neurons in the pedunculopontine and laterodorsal tegmental nuclei were moderately reactive, whereas cells of the parabigeminal nucleus exhibited a very weak hybridization signal. No somata in the brainstem raphe nuclei, including raphe obscurus and raphe magnus, were observed to bind riboprobe. In contrast, motor neurons of the cranial nerve nuclei demonstrated relatively large amounts of choline acetyltransferase mRNA. Putative cholinergic somata in the ventral horns and intermediolateral cell columns of the spinal cord were also labeled with riboprobe, as were a few cells around the central canal. We conclude that hybridocytochemistry with digoxigenin-labeled riboprobes confirms the existence of cholinergic neurons (i.e. those that synthesize and use acetylcholine as a neurotransmitter) in most of the neural regions deduced to contain them on the basis of previous histochemical and immunocytochemical data. Notable exceptions are the cerebral cortex and hippocampus, which do not possess neurons expressing detectable levels of choline acetyltransferase mRNA.     

P2X_4受体在大鼠神经系统的分布

目的　　观察Ｐ２Ｘ４受体在大鼠神经系统的分布。方法　　Ｐ２Ｘ４受体特异性抗体的免疫细胞化学染色。结果　　Ｐ２Ｘ４受体阳性神经元主要分布于嗅球、前扣带回皮质、梨状皮质、内侧隔核、杏仁中央核、海马ＣＡ３区、乳头体上核、脚间核、三叉神经中脑核、三叉神经运动核、孤束核、最后区、穹窿下器、小脑皮质的Ｐｕｒｋｉｎｊｅ细胞、延髓和脊髓后角Ⅰ层和Ⅱ层、背根神经节和三叉神经节。结论　　Ｐ２Ｘ４受体阳性结构广泛分布于大鼠神经系统,为ＡＴＰ发挥作用提供了位点。     

芳香化酶mRNA在小鼠脑内的表达及其分布

目的 研究芳香化酶ｍ（ＲＮＡ（ａｒｏｍａｔａｓｅ ｍＲＮＡ）在小鼠脑内的基因表达。方法 原位杂交组织化学和ＰＮＡ斑点杂交。结果 （１）斑点杂交结果显示,脑内芳香化酶ｍＲＮＡ在小鼠Ｅ１６－Ｐ３００整个发育过程中均有表达,表达高峰在生后６ｄ左右,成年后降至最低;（２）脑内芳香化酶ｍＲＮＡ主要定位于神经元;（３）芳香化酶ｍＲＮＡ在脑内的表达,阳性区域主要分布于大脑皮层,丘脑、下丘脑及边缘系统。其中,皮质锥体细胞层、内侧视前区、隔内侧核、海马各区锥体层、杏仁核群、扣带皮质、梨状前皮质及杏仁周皮质等部位阳性信号较强;中等强度的阳性信号见于丘脑腹内、外侧核,丘脑外侧背核、下丘脑室旁核、室周核等处。结论 以上结果进一步证明脑内芳香化酶的表达与脑发育存在一定的相关性,芳香化酶ｍＲＮＡ的表达部位与文献报道酶的活性分布基本一致;海     

Restricted distribution of galanin receptor 3 (GalR3) mRNA in the adult rat central nervous system

Recent molecular cloning studies have established the existence of a third rat galanin receptor subtype, GalR3, however its precise distribution in the mammalian central nervous system (CNS) is not well established. In the present study, we examined the regional and cellular distribution of GalR3 mRNA in the CNS of the rat by in situ hybridization. Our findings indicate that GALR3 mRNA expression in the rat brain is discrete and highly restricted, concentrated mainly in the preoptic/hypothalamic area. Within the hypothalamus, GalR3 expression was confined to the paraventricular, ventromedial and dorsomedial hypothalamic nuclei. In addition to these hypothalamic nuclei, GalR3 mRNA-expressing cells were observed in the medial septum/diagonal band of Broca complex, the bed nucleus of the stria terminalis, the medial amygdaloid nucleus, the periaqueductal gray, the lateral parabrachial nucleus, the dorsal raphe nucleus, the locus coeruleus, the medial medullary reticular formation and in one of the circumventricular organs, the subfornical organ. In the spinal cord, a faint but specific ISH signal was observed over the laminae I–II with a few moderately labeled cells distributed in laminae V and X. The neuroanatomical distribution of GalR3 suggests it might be involved in mediating documented effects of galanin on food intake, fluid homeostasis, cardiovascular function and nociception.     

IMMUNOHISTOCHEMICAL DISTRIBUTION OF CANNABINOID CB 1 RECEPTOR IN THE RAT CENTRAL NERVOUS SYSTEM

IMMUNOHISTOCHEMICAL DISTRIBUTION OF CANNABINOID CB 1 RECEPTOR IN THE RAT CENTRAL NERVOUS SYSTEM@邹冈     

Immunohistochemical distribution of neurons containing the G-proteins Gq alpha/G11 alpha in the adult rat brain.

A new class of G-proteins, the Gq family, has been recently identified and found to be involved in phospholipase C activation. The alpha subunits of the Gq and G11 members of this family are separate polypeptides but appear to have the same function. In this study, the cellular distribution in the adult rat brain of these G-proteins, Gq alpha/G11 alpha, was determined by immunohistochemistry using an antipeptide antiserum directed against the predicted C-terminal decapeptide which is conserved between these polypeptides. The specificity of the antiserum was verified by Western blot analysis using rat brain homogenates. Immunoreactivity was detected in neurons, where it was localized in the dendrites and at the periphery of the cell bodies. The staining was abundant in the dendrites of cerebellar Purkinje cells and hippocampal CA1 pyramidal cells. Staining was also found in neurons in the olfactory bulb, minor and major islets of Calleja, anterior olfactory nuclei and piriform cortex; the different cortical areas especially in their superficial layers; caudate-putamen, accumbens and olfactory tubercle; lateral septum and amygdala; hippocampal CA2-4 sectors of Ammon's horn, dentate gyrus and hilus; hypothalamic supraoptic nucleus; cerebellar granular layer; colliculi and superficial layers of the dorsal horn of the spinal cord. In conclusion, the brain neuronal localizations of Gq alpha/G11 alpha match that of phospholipase C, 1,4,5-triphosphate receptor and, to a lesser extent 1,4,5-triphosphate-3-kinase.     

Inclusion bodies in motor cortex and brainstem of patients with motor neurone disease are detected by immunocytochemical localisation of ubiquitin

Histological sections of cerebral motor cortex, brainstem, and spinal cord from 10 cases of clinically diagnosed motor neurone disease (MND) and 10 control cases were examined by conventional histology and immunocytochemical methods to localise ubiquitin. Intracytoplasmic inclusion bodies were identified in motor neurones of hypoglossal nuclei and appeared specific for MND. Similar inclusions were found in both large pyramidal cells and small neurones in the motor cortex, and were restricted to 4 cases having the amyotrophic lateral sclerosis form of MND with severe degeneration of corticospinal tracts. As reported in earlier studies, cellular inclusion bodies were identified in motor neurones of spinal cord from cases of MND but not in control material. Ubiquitin inclusions in motor neurones appear to be markers for the degenerative process causing neuronal loss in MND and there appears to be a close association between the anatomical location of inclusions and clinical manifestations of disease.     

Distribution of nerve growth factor receptor-like immunoreactivity in the adult rat central nervous system. Effect of colchicine and correlation with the cholinergic system--II. Brainstem, cerebellum and spinal cord

Multiple nuclei and fiber tracts in the adult rat brainstem and spinal cord were found to contain nerve growth factor receptor-related protein, as recognized by the monoclonal antibody 192-IgG. Both cholinergic and non-cholinergic sensory and motor regions demonstrated immunoreactive cell bodies and fibers. Nerve growth factor receptor-immunoreactive cells were seen in the mesencephalic nucleus of trigeminal nerve, superior colliculus, parabrachial, prepositus hypoglossal, raphe, dorsal and ventral cochlear, interstitial nucleus of the vestibular nerve, ambiguus and reticular nuclei, cerebellum and ventral spinal cord. Immunoreactive cells resembling neuroglia were distributed subpially along the superior colliculus. Intracerebroventricular injection of colchicine resulted in significantly increased nerve growth factor receptor immunoreactivity in all previously positive neurons and especially in certain neurons of the cochlear and ambiguus nuclei. It also resulted in the visualization of receptor immunoreactivity in certain neurons which were normally non-immunoreactive including cerebellar Purkinje cells, neurons of the central gray, locus coeruleus, facial, dorsal motor vagal and hypoglossal nuclei. In normal animals, nerve growth factor receptor-immunoreactive fibers and varicosities occurred in the trigeminal nerve nuclei, pontine, vestibular, parabrachial, facial, hypoglossal, dorsal motor vagal, solitary, gracile and cuneate nuclei and spinal cord. Although most fiber-like immunoreactive structures were probably axons and nerve terminals, neuroglial or extracellular localizations could not be excluded in some areas. For example, the medial nucleus of the inferior olive and most cerebellar nuclei contained diffuse non-fibrillar receptor immunoreactivity. The presence of nerve growth factor receptor-like immunoreactivity in cell bodies and fibers of several sensory and motor areas of the adult rat brainstem, cerebellum and spinal cord suggests multifocal actions of nerve growth factor or a nerve growth factor-like substance. Although the degree of overlap between nerve growth factor receptor- and choline acetyltransferase-containing regions in the brainstem is not as great as in the forebrain, our findings suggest a potential influence of nerve growth factor or nerve growth factor-like substances on cholinergic systems outside the forebrain. Furthermore, the disparities which occur imply that non-cholinergic nerve growth factor receptor-containing neurons of the brainstem, cerebellum and spinal cord may be affected by such trophic substances.     

Regional distribution of importin subtype mRNA expression in the nervous system: study of early postnatal and adult mouse

Importin-alpha and beta1 mediate the translocation of macromolecules bearing nuclear localization signals across the nuclear pore complex. Five importin-alpha isoforms have been identified in mice and six in human. Some of these importins play an important role in neural activity such as long term potentiation, but the functional differences of each isoform in the CNS are still unclear. We performed in situ hybridization (ISH) using non-isotopic probes to clarify the expression patterns of importin-alpha subtypes (alpha5, alpha7, alpha1, alpha4, alpha3) and importin-beta1 in the mouse CNS of adult and early postnatal stages. The mRNAs of the importin-alpha subtypes and importin beta1 were expressed throughout the CNS with specific patterns; importin-alpha5, alpha7, alpha3, and beta1 showed moderate to high expression levels throughout the brain and spinal cord; importin-alpha4 showed a lack of expression in limited regions; and importin-alpha1 showed a low expression level throughout the brain and spinal cord but with a moderate expression level in the olfactory bulb and reticular system. We also demonstrated that importin-alphas and beta1 mRNAs were predominantly expressed in neurons in the adult mouse brain by using double-labeling fluorescence ISH and immunohistochemistry. Moreover, importin-alphas and beta1 mRNAs were detected throughout the CNS of postnatal mice and were highly expressed in the external granule layer of the cerebellar cortex on postnatal days 0, 4, and 10. This is the first report of importin-alphas and beta1 expression throughout the CNS of adult mice, as well as in the developing brain, including cell type specific localization.     

含Calbindin-D28K mRNA的神经元在大鼠脑干中的分布—原位杂交组织化学法观察

用原位杂交组织化学技术,对含Calbindin-D28K mRNA的神经元在大鼠脑干中的分布进行全了面观察。发现不同脑区或核团中所含阳性神经元的数量及其标记强度各不相同。其中含强阳性杂交信号的区域有:小脑皮质、外侧丘系核、斜方体核、下橄榄核及臂旁核;含中等强度杂交信号的区域包括:脚间核、黑质致密部、耳蜗核和最后区。而在其它大部分脑区中杂交信号呈弱阳性,如:上丘、顶盖前区、红核、三叉神经感觉核簇、后索核、下丘、前庭核群、孤束核、中央灰质和网状结构中的部分核团。含Calbindin-D28KmRNA的神经元在脑干中的这种区域特异性分布特点提示在神经系统的某些生理功能中,Calbindin-D28K可能起重要的作用。     

Caspase-3在成年大鼠中枢神经系统分布的免疫组织化学研究

采用免疫组织化学ABC法观察caspase3在成年大鼠中枢神经系统不同区域内的分布。caspase3阳性反应产物主要分布于脊髓前角和侧角大型运动神经元及中型神经元的胞浆、胞核及突起;脊髓后角及灰质连合的中、小型神经元的胞核及胞浆亦可见caspase3阳性反应产物;脊髓白质内的星形胶质细胞、小胶质细胞及少突胶质细胞的胞核和胞浆,caspase3阳性反应产物呈强阳性反应。在延髓内,caspase3阳性反应产物定位于中央灰质、三叉神经尾侧亚核和中央网状核内中型神经元的胞浆。大脑皮层各区内的caspase3阳性反应产物集中分布于ⅢⅤ层锥体细胞的胞浆,呈弱阳性反应。海马的CA1、CA2、CA3、CA4区的锥体细胞层的细胞,胞浆亦呈弱阳性反应。小脑内,以Purkinje细胞胞浆着色为主。乳头体核、尾状核、豆状核、嗅前核后部、嗅结节及丘脑等部位亦可见caspase3阳性神经元。本研究的结果说明caspase3在中枢神经系统内广泛分布,且在不同部位神经元的亚细胞分布存在差异。     

肾上腺髓质素在正常大鼠大脑的分布

目的观察正常大鼠脑组织肾上腺髓质素(ADM)及ADM mRNA的表达及分布。方法免疫组织化学法(SABC法)检测ADM阳性细胞表达、原位杂交法检测ADM mRNA阳性细胞表达,RT-PCR法检测ADM mRNA在正常大鼠脑内的表达。结果在正常大鼠大脑内有ADM及ADM mRNA的表达,主要表达在大脑皮质锥体细胞、海马CA1区、CA2区、CA3区、CA4区锥体细胞、齿状回颗粒细胞层、丘脑的室旁核、视上核、丘脑内侧核、丘脑外侧核、缰内侧核、室旁组织、脉络丛、室管膜细胞、尾状核、壳核、苍白球、血管内皮细胞及平滑肌细胞,其中室旁组织为高表达区。结论ADM在中枢神经系统的广泛分布,预示着ADM在中枢神经系统内具有重要的作用。     

Role of androgens in the regulation of urotensin II precursor mRNA expression in the rat brainstem and spinal cord

It has been reported that both urotensin II precursor (pro UII) mRNA and androgen receptors (ARs) are highly expressed in rat brainstem motor nuclei and ventral horn of the spinal cord. In order to determine the possible involvement of androgens in regulation of pro UII mRNA expression, we have studied the co-localization of pro UII mRNA and AR immunoreactivity and the effect of castration and dihydrotestosterone (DHT) replacement therapy on pro UII mRNA in the rat facial nucleus and ventral horn of the spinal cord. By in situ hybridization, pro UII mRNA was only detected in motoneurons in both the facial nucleus and ventral horn of the spinal cord. Double-labelling studies revealed that the vast majority (over 95%) of motoneurons immunostained for AR also expressed pro UII mRNA in both areas examined. Three weeks after castration, pro UII mRNA expression, as measured by semi-quantitative in situ hybridization, was increased by 17% and 58% in the ventral horn of the spinal cord and the facial nucleus, respectively. The administration of DHT completely prevented the stimulating effect of castration. These results indicate that circulating androgens are exerting a down-regulation of pro UII expression possibly by a direct action at the level of motoneurons. The physiological relevance of these new findings remains to be fully explored.