The postantennal organ: A specialized unicellular sensory input to the protocerebrum in apterygotan insects (Collembola)

Summary A postantennal organ occurs in three different families in Collembola. In spite of considerable diversity in their outer structures, the organs manifest many similarities in their internal structure (pore system with pores of about 50–100 Å diameter, a single sensory cell with two branching ciliary outer segments, reduction of the outer receptor lymph cavity and occurrence of an electron dense secretion around the dendrites). A tendency towards an enlargement of the outer surface of the organ and towards an incorporation of the sensory cell into the protocerebrum appears to be correlated with adaptations to a strict euedaphic life. An appropriate stimulus for the organ cannot be derived from the structure unequivocally, however, it could be hygro-, chemo- or thermosensitive. Perforated surface and number of pores in the postantennal organ correspond to the values found in insect sensory hairs.     

A Novel Subtype of Prostacyclin Receptor in the Central Nervous System

Recently, in the course of our search for the prostacyclin receptor in the brain, we found a novel subtype, designated as IP2, which was finely discriminated by use of the specific ligand (15R)-16-m-tolyl-17,18,19,20-tetranorisocarbacyclin (15R-TIC) and specifically localized in the rostral part of the brain. In the present study, the tritiated compound 15R-[15-(3)H]TIC was synthesized and utilized for more specific research on IP2. The specificity of binding to rat brain regions was confirmed by use of several prostacyclin derivatives including 15S-TIC. Mapping of 15R- and 15S-[3H]TIC binding in adjacent pairs of frozen sections of rat brain demonstrated a quite similar pattern of distribution in almost all rostral brain regions, indicating that the regions may contain only the IP2 subtype. On the other hand, 15R-[3H]TIC binding was very faint as compared with 15S-[3H]TIC binding in the caudal medullary region. High densities of 15R-[3H]TIC binding sites were shown in the dorsal part of the lateral septal nucleus, thalamic nuclei, limbic structures, and some of the cortical regions. Scatchard plot analysis showed two components of high-affinity 15R-[3H]TIC binding in the rostral regions, one with a K(D) value at approximately 1 nM and the other with approximately 30 nM. These results strengthen our previous finding that a different subtype of prostacyclin receptor is expressed in the CNS, and the map with 15R-[3H]TIC obtained here could guide further studies on the molecular and functional properties of the IP2.     

Distribution of peptide-containing neurons and endocrine cells in the rabbit gastrointestinal tract,with particular reference to the mucosa

Summary The distribution patterns of peptide-containing neurons and endocrine cells were mapped in sections of oesophagus, stomach, small intestine and large intestine of the rabbit, by use of standard immunohistochemical techniques. Whole mounts of separated layers of ileum were similarly examined. Antibodies raised against vasoactive intestinal peptide (VIP), substance P (SP), somatostatin (SOM), neuropeptide Y (NPY), enkephalins (ENK) and gastrin-releasing peptide (GRP) were used, and for each of these antisera distinct populations of immunoreactive (IR) nerve fibres were observed. Endocrine cells were labelled by the SP, SOM or NPY antisera in some regions.VIP-IR nerve fibres were common in each layer throughout the gastrointestinal tract. With the exception of the oesophagus, GRP-IR nerve fibres also occurred in each layer of the gastrointestinal tract; they formed a particularly rich network in the mucosa of the stomach and small intestine. Fewer nerve fibres containing NPY-IR or SOM-IR were seen in all areas. SOM-IR nerve fibres were very scarce in the circular and longitudinal muscle layers of each area and were absent from the gastric mucosa. The SP-IR innervation of the external musculature and ganglionated plexuses in most regions was rather extensive, whereas the mucosa was only very sparsely innervated. ENK-IR nerve fibres were extremely rare or absent from the mucosa of all areas, although immunoreactive nerve fibres were found in other layers.These studies illustrate the differences in distribution patterns of peptide-containing nerve fibres and endocrine cells along the gastrointestinal tract of the rabbit and also show that there are some marked differences in these patterns, in comparison with other mammalian species.     

Insulin receptors in rat brain cortex. Kinetic evidence for a receptor subtype in the central nervous system

Binding kinetics of porcine ¹²⁵I-insulin were studied in synaptosomal and microsomal fractions of rat brain cortex. Receptor binding was temperature- and pH-dependent with optimum at 4°C and pH 8.0–8.3. At 15°C, steady state binding was heterogenous, and Scatchard analysis revealed two classes of receptors with K_d of 2 nmol/l and 40 nmol/l in amounts of 50 pmol/g and 200 pmol/g of membrane protein. Dissociation kinetics were biexponential with $\text{T}\text{1}\text{2}$ of about 5 min and 180 min, and in contrast to other cell-types, not influenced by negative cooperativity. No receptor-mediated insulin degradation was detectable at 37°C in the presence of bacitracin. Insulin analogues inhibited ¹²⁵I-insulin binding with potencies relative to porcine insulin (%): human insulin 100, rat insulin (I+II) 71, coypu insulin 47, rat multiplication stimulating activity 8, porcine proinsulin 5, among which the three last values were significantly higher than in rat liver and fat cells. No competition was observed with porcine relaxin and mouse nerve growth factor up to about 1 μmol/l. Receptors were present in all regions of central nervous system with highest concentrations in the cerebral cortex, cerebellum and olfactory bulb, and lowest in the pons, medulla oblongata and spinal cord. In conclusion, insulin receptors in rat brain cortex are functionally different from other tissues regarding the insulin specificity and the absence of negative cooperativity. It is suggested that an insulin receptor subtype in rat brain mediates the growth activity of insulin on nerve cells.     

丝氨酸消旋酶在中枢神经系统中的研究进展

中枢神经系统中,丝氨酸消旋酶是5'吡哆醛依赖性酶,通过合成调控D型丝氨酸,参与N-甲基-D-天冬氨酸受体介导的神经发生、突触可塑性及学习记忆的调节。丝氨酸消旋酶表达与活性可以通过转录、翻译、翻译后修饰,小分子配基与蛋白相互作用,亚细胞分布多种方式调节。丝氨酸消旋酶失调影响了精神分裂症、脑损伤及神经退行性疾病等多种中枢神经系统疾病。本文简要介绍丝氨酸消旋酶的结构、分布、调节因素和在中枢神经系统中的生理病理功能,为神经及精神疾病的治疗和药物开发提供了新的思路。     

中枢ACTH受体研究进展

除垂体以外,中枢神经系统也含有促肾上腺皮质激素（ＡＣＴＨ）能神经元,其神经纤维在中枢具有较广泛的投射。ＡＣＴＨ相关肽类在中枢发挥着多种生理功能。近年来对于中枢ＡＣＴＨ受体的研究取得很大的进展,现已确认ＡＣＴＨ结合位点在中枢具有广泛的分布。新近克隆出的四种ＡＣＴＨ受体中,有两种是中枢神经系统占优势的受体亚型。     

Identification,biological characterization and pharmacophoric analysis of a new potent and selective NK1 receptor antagonist clinical candidate

The last two decades have provided a large weight of preclinical data implicating the neurokinin-1 receptor (NK₁) and its cognate ligand substance P (SP) in a broad range of both central and peripheral disease conditions. However, to date, only the NK₁ receptor antagonist aprepitant has been approved as a therapeutic and this is to prevent chemotherapy-induced nausea & vomiting (CINV). The belief remained that the full therapeutic potential of NK₁ receptor antagonists had yet to be realized; therefore clinical evidence that NK₁ receptor antagonists may be effective in major depression disorder, resulted in a significant further investment in discovering novel CNS penetrant druggable NK₁ receptor antagonists to address this condition. At GlaxoSmithKline after the discovery of casopitant, that went on to demonstrate efficacy as a novel antidepressant in the clinic, additional novel analogues of this NK₁ receptor antagonist were designed to further enhance its drug developability characteristics. Herein, we therefore describe the discovery process and the vivo pharmacological and pharmacokinetic profile of the new NK₁ receptor antagonist 3a (also called orvepitant), selected as clinical candidate and further progressed into clinical studies for major depressive disorder. Moreover, molecular modeling studies enabled us to improve the pharmacophore model of the NK₁ receptor antagonists with the identification of a region able to accommodate a variety of heterocycle moieties.     

Comparison of opioid receptor distributions in the rat central nervous system

The opioid receptors, mu, delta and kappa, conduct the major pharmacological effects of opioid drugs, and exhibit intriguing functional relationships and interactions in the CNS. Previously established hypotheses regarding the mechanisms underlying these phenomena specify theoretical patterns of relative cellular localisation for the different receptor types. In this study, we have used double-label immunohistochemistry to compare the cellular distributions of delta and kappa receptors with those of mu receptors in the rat CNS. Regions of established significance in opioid addiction were examined. Extensive mu/delta co-localisation was observed in neuron-like cells in several regions. mu and kappa receptors were also often co-localised in neuron-like cell bodies in several regions. However, intense kappa immunoreactivity (ir) also appeared in a separate, morphologically distinct population of cells that did not express mu receptors. These small, ovoid cells were often closely apposed against the larger, mu-ir cell bodies. Such cellular appositions were seen in several regions, but were particularly common in the medial thalamus, the periaqueductal grey and brainstem regions. These findings support proposals that functional similarities, synergy and cooperativity between mu and delta receptors arise from widespread co-expression by cells and intracellular molecular interactions. Although co-expression of mu and kappa receptors was also detected, the appearance of a separate population of kappa-expressing cells supports proposals that the contrasting and functionally antagonistic properties of mu and kappa receptors are due to expression in physiologically distinct cell types. Greater understanding of opioid receptor interaction mechanisms may provide possibilities for therapeutic intervention in opioid addiction and other conditions.     

Transient carbon monoxide inhibits the ventilatory responses to hypoxia through peripheral mechanisms in the rat

Hypoxia inhibits K+ channels of chemoreceptors of the carotid body (CB), which is reversed by transient carbon monoxide (CO), suggesting an inhibitory effect of CO on hypoxic stimulation of carotid chemoreceptors. Therefore, we hypothesized that the ventilatory responses to hypoxic stimulation of the CB might be depressed in intact rats by transient inhalation of CO. Anesthetized, spontaneously breathing rats were exposed to room air, and 1 min of 11% O2 (HYP) and CO (0.25-2%) alone and in combination (HYP+CO). We found that transient CO did not affect baseline cardiorespiratory variables, but significantly attenuated hypoxic ventilatory augmentation, predominantly via reduction of tidal volume. To distinguish whether this CO modulation occurs at the CB or within the central nervous system, the cardiorespiratory responses to electrical stimulation of the fastigial nucleus (FN), a cerebellar nucleus known excitatory to respiration, were compared before and during transient CO. Our results showed that the FN-mediated cardiorespiratory responses were not significantly changed by transient CO exposure. To evaluate the effect of CO accumulation, we also compared baseline cardiorespiratory responses to 5 min of 1% and 2% CO, respectively. Interestingly, only the latter produced a biphasic ventilatory response (initial increase followed by decrease) associated with hypotension. We conclude that eupneic breathing in anesthetized rat was not affected by transient CO, but was altered by prolonged exposure to higher levels of CO. Moreover, transient CO depresses hypoxic ventilatory responses mainly through peripherally inhibiting hypoxic stimulation of carotid chemoreceptors.     

宫内和出生后早期发育环境对成年期糖代谢影响的中枢调控作用机制

目前有大量证据表明早期不良的发育环境对成年期增加代谢性疾病的易感性起着决定性的作用。另外,随着人们对中枢胰岛素抵抗的认识增加,中枢对调控外周葡萄糖稳态起着极其重要的作用,越来越多的研究表明这可能是一种表观遗传学机制。表观遗传学是研究在没有DNA序列变化的情况下,引起基因表达可遗传性的改变。它能特异性地调节相关组织的基因表达,从而诱导物质代谢长期的改变。本文着重探讨早期发育环境对成年期糖代谢影响的中枢调控作用的表观遗传学机制。     

Electron microscopic identification of several types of endocrine cells in the bronchial epithelium of human foetuses

Summary Electron microscopic investigations of the pulmonary epithelium of human foetuses reveal the occurrence of cells exhibiting fine-structural characteristics of polypeptide hormone producing APUD cells. Three types of cells were identified mainly on basis of the morphology of their secretory granules. Cells of type 1 have the appearance of monoamine storing cells and the dense core of vesiculated granules of these cells are reactive to argentaffine reaction performed directly on ultra-thin sections. Cells of type 2 contain granules of uniform shape and size and of rather homogeneous appearance. Besides in larger bronchial tubules these cells are localized in the epithelium of developing alveoli. Cells of type 3 with large osmiophilic granules tightly bound by a membrane are few and scattered. These cells are observed in larger bronchial tubuli only.     

Metabotropic glutamate receptors

Metabotropic glutamate receptors (mGlus) are a family of G-protein-coupled receptors activated by the neurotransmitter glutamate. Molecular cloning has revealed eight different subtypes (mGlu1-8) with distinct molecular and pharmacological properties. Multiplicity in this receptor family is further generated through alternative splicing. mGlus activate a multitude of signalling pathways important for modulating neuronal excitability, synaptic plasticity and feedback regulation of neurotransmitter release. In this review, we summarize anatomical findings (from our work and that of other laboratories) describing their distribution in the central nervous system. Recent evidence regarding the localization of these receptors in peripheral tissues will also be examined. The distinct regional, cellular and subcellular distribution of mGlus in the brain will be discussed in view of their relationship to neurotransmitter release sites and of possible functional implications.This work was supported by the Ministry of Education, Culture, Sports, Science and Technology of Japan (R.S.) and by the Austrian Science Fund FWF (grant no. P16720 to F.F.).     

中枢神经系统周细胞表达结蛋白desmin

目的:本研究着重探讨中枢神经系统周细胞是否表达desmin。方法:取3周龄雄性Wistar大鼠,取其大脑和脊髓组织,分离提取培养脑微血管周细胞(BMP)和脊髓微血管周细胞(SCMP)两种周细胞,用周细胞非特异性标记物神经胶质抗原2(NG2)和α-平滑肌肌动蛋白(α-SMA)双标鉴定周细胞,并用免疫荧光方法定性定量测定两种周细胞表达desmin阳性率,免疫印记分析实验定量测定两种周细胞表达desmin。结果:观察刚分离得到的脑微血管和脊髓微血管,前者在长度和密度上多于后者,培养至第3天时,观察到BMP更趋向于聚集,而SCMP则更分散。培养至第9天时,两种周细胞基本铺满了培养皿。经用周细胞非特异性标记物NG2和α-SMA双标鉴定,确定分离得到的细胞为周细胞,免疫荧光和western blot实验结果表明两种周细胞均表达desmin,且SCMP表达desmin阳性率显著多于BMP(P0.001),SCMP表达desmin量显著多于BMP(P0.05)。结论:中枢神经系统周细胞表达结蛋白desmin,表达量不同暗示了血脑屏障和血脊髓屏障之间存在差异。     

脑室内注入TRH对大鼠肝脏无机磷代谢影响的核磁共振分析

采用在大鼠脑室内注入促甲状腺激素释放激素（Ｔｈｙｒｏｔｒｏｐｉｎｒｅｌｅａｓｉｎｇｈｏｒｍｏｎｅ,ＴＲＨ）,并利用３１Ｐ－核磁共振法测定活体大鼠肝脏中的含磷化学物质,并观察ＴＲＨ对肝脏无机磷代谢的影响,研究证明,ＴＲＨ通过中枢神经影响肝脏中无机磷的代谢。由侧脑室注入ＴＲＨ,使肝脏无机磷含量发生显著增加,此作用由于副交感神经的阻断剂阿托品的加入而消失,由此可以认为,ＴＲＨ是经由副交感神经而影响肝脏的代谢。