Altered Time Course of mRNA Expression of Alpha Tubulin in the Central Nervous System of Hens Treated with Diisopropyl Phosphorofluoridate (DFP)

Diisopropyl phosphorofluoridate (DFP) produces organophosphorus-ester induced delayed neurotoxicity (OPIDN) in the hen, human and other sensitive species. We studied the effect of single dose of DFP (1.7 mg/kg/s.c.) on the expression of alpha tubulin which is one of the major sub-unit of tubulin polymers that constitute an important constituent of cellular architecture. The hens were sacrificed at different time points i.e. 1, 2, 5, 10, and 20 days. Total RNA was extracted from the following brain regions: cerebrum, cerebellum, and brainstem as well as spinal cord. Northern blots prepared using standard protocols were hybridized with alpha tubulin as well as with -actin and 28S RNA cDNA (controls) probes. The results indicate a differential /spatial /temporal regulation of alpha tubulin levels which may be the result of perturbed microtubule dynamics not only in the axons but also in perikarya of neurons in the CNS of DFP treated hens. In the highly susceptible tissues like brainstem and spinal cord the initial down-regulation of mRNA levels could be attributed to DFP induced stress response resulting in inhibited cell metabolism and or cell injury / cell death. Increase in levels of mRNA at 5 days and thereafter coincided with increased tubulin transport which may be due to increased phosphorylation of tubulins in both axons and perikarya and other intraaxonal changes resulting in impaired axonal transport. DFP induced decreased rate of tubulin polymerization resulting in increased levels of free tubulin monomers may be involved in the altered alpha tubulin mRNA expression at different time points by autoregulatory circuits. Cerebellum being the less susceptible tissue showed only a moderate decline at day 2, while the alpha tubulin remained at near control levels at day 1. Delayed down-regulation may be due to the co-ordinated up or down- regulation of different sub-types of alpha and beta tubulins as well as the differential response of specialised cell types in cerebellum. Continuous overexpression of alpha tubulin in cerebrum from the beginning may be its effective protective strategy to safeguard itself from neurotoxicity. Differential expression pattern observed could be due to the differential susceptibility and variability in the rate of axonal transport of different regions besides the tubulin heterogenity of CNS. Hence our results indicte differential expression of alpha tubulin is either one of the reasons for the development of OPIDN or the result of progressive changes taking place during OPIDN.     

C-fos mRNA Induction in the Central and Peripheral Nervous Systems of Diisopropyl Phosphorofluoridate (DFP)-Treated Hens

A single dose of diisopropyl phosphorofluoridate (DFP), an organophosphorus ester, produces delayed neurotoxicity (OPIDN) in hen. DFP produces mild ataxia in hens in 7–14 days, which develops into severe ataxia or paralysis as the disease progresses. Since, OPIDN is associated with alteration in the expression of several proteins (e.g., Ca²⁺/calmodulin-dependent protein kinase II (CaM kinase II) -subunit, tau, tubulin, neurofilament (NF) protein, vimentin, GFAP) as well as their mRNAs (e.g., NF, CaM kinase II -subunit), we determined the effect of a single dose of DFP on the expression of one of the best known immediate-early gene (IEG), c-fos. C-fos expression was measured by Northern hybridization in cerebrum, cerebellum, brainstem, midbrain, spinal cord, and the sciatic nerves of hens at 0.5 hr, 1 hr, 2 hr, 1 day, 5 days, 10 days, and 20 days after a single 1.7 mg/kg, sc. injection of DFP. All the tissues (cerebrum, 52%; cerebellum, 55%; brainstem, 49%; midbrain, 23%; spinal cord, 80%; sciatic nerve, 157%;) showed significant increase in c-fos expression in 30 min and this elevated level persisted at least up to 2 hr. Expressions of -actin mRNA and 18S RNA were used as internal controls. The significant increase in c-fos expression in DFP-treated hens suggests that c-fos may be one of the IEGs involved in the development of OPIDN.Both of them equally contributed towards this work     

Caspase与神经系统疾病

近年来,细胞凋亡发生机制的研究已取得众多进展。研究表明,许多神经系统疾病与caspase家族有着密切联系。现将细胞凋亡的最新研究结果及其与神经系统疾病的关系,尤其是caspase家族在神经系统疾病中的主导地位作简单综述,希望由此了解神经元细胞凋亡的内在机制并达到治疗目的。     

内源性气体硫化氢在中枢神经系统中的作用

内源性硫化氢(H2S)可以刺激神经细胞cAMP水平增加,提高NMDA受体介导的突触后兴奋性电位,提高诱导海马长时程增强。H2S不仅具有神经调节剂的功能,还有神经保护剂的功能。H2S自身并不能将细胞从氧化应激中解救出来,但是它能通过提高胞内有效的抗氧化剂——还原型谷胱苷肽的含量而起到保护神经元的作用。对H2S的研究刚刚起步,对其在神经系统中的作用机制开展研究将有助于了解其在神经元保护方面所起的作用。     

流感相关中枢神经系统并发症研究进展

流感病毒是一种传染性强、传播速度快,可引起急性呼吸道感染的病毒。流感病毒感染后主要引起上呼吸道系统疾病,也可能导致肺炎等临床症状。近年来,流感相关中枢神经系统并发症逐渐引起了国际上的关注,美国、英国、澳大利亚、日本、中国台湾、中国香港等国家和地区均有相关的病例报道。其中大部分中枢神经系统并发症为热性惊厥,症状较轻,预后普遍良好,但由于各种原因少部分患者可能患流感相关脑病/脑炎,其中急性坏死性脑病死亡率较高并可能导致患者长久神经后遗症,因此应得到医疗工作者的重视。本文围绕流感中枢神经系统并发症,介绍其发病特征、易感人群、诊断与治疗等方面研究进展。     

POU蛋白调节中枢神经系统发育

POU蛋白是一组DNA特异的转录调节因子,属同源异形序列超家族.发育过程中,POU蛋白编码基因在中枢神经系统各部位的时空性表达决定神经细胞的发育与分化.     

Toll信号通路在中枢神经系统损伤中的作用

Toll样受体(Toll-like receptors,TLR)是先天性免疫反应识别病原体的一个重要分子,在免疫系统中发挥关键作用.其家族各种成员的主要功能是识别入侵病原体表面的各种不同分子模式,随后启动免疫反应,达到保护机体作用.在大脑中,小胶质细胞可以作为抗原提呈细胞,参与脑内免疫反应,也可以通过分泌各种促炎症因子启动或促进免疫反应,而TLR家族在中枢神经免疫系统的作用仍存在争议,它既可以通过促进神经免疫反应枢纽因子的表达来增强免疫,也可因免疫过度而损伤神经细胞.总之,Toll信号通路对中枢神经系统疾病有一定的调控作用.     

Alteration in Cytoskeletal Protein Levels in Sciatic Nerve on Post-Treatment of Diisopropyl Phosphorofluoridate (DFP)-Treated Hen with Phenylmethylsulfonyl Fluoride

Diisopropyl phosphorofluoridate (DFP) is an organophosphorus ester, and a single dose (1.7 mg/kg, sc.) of this compound produces mild ataxia in hens in 7–14 days and a severe ataxia or paralysis (OPIDN) in three weeks. OPIDN is associated with axonal swelling and their degeneration. We have previously observed alteration in neurofilament (NF) protein levels in the spinal cord of DFP-treated hens. The main objective of this investigation was to study NF protein levels in the sciatic nerves (SN) of hens, in which OPIDN has been potentiated by phenylmethylsulfonyl fluoride (PMSF) post-treatment. PMSF is known to protect DFP-treated (1.7 mg/kg) hens from developing OPIDN if injected before, and potentiate OPIDN if injected after the administration of DFP (0.5 mg/kg). The potentiation of OPIDN was accompanied by earlier elevation of NF proteins in the SN particulate fraction. In contrast, SN supernatant fraction showed a transient fall in NF protein levels in potentiation OPIDN. Out of the two other cytoskeletal proteins (i.e., tubulin, tau) studied in this investigation, tubulin also showed earlier elevation in its level in the particulate fraction in potentiated OPIDN. The earlier elevation of NF protein levels in SN particulate fraction in potentiated OPIDN suggested the possible involvement of NFs in delayed neurotoxicity.     

Golgi Method without Osmium Tetroxide for the Study of the Central Nervous System

A variant Golgi technique was developed that consisted of substituting osmium tetroxide with formaldehyde as the initial fixative in intracardiac perfusion, along with the addition of glacial acetic acid to the chromating fluid. This procedure avoids disposal of dangerous waste substances into the environment. Other advantages include 1) reduction of cost, danger to lab workers, and risk of disruption of the tissue slices during their handling by eliminating the osmium tetroxide, 2) clear tissue background, 3) greater quantity of impregnated neurons than in the classical procedure, with distinct morphological details easily identified even in gross sections and 4) reduction in processing time.     

缺氧条件下中枢神经系统外泌体作用机制

外泌体是来源于细胞内吞噬作用的细胞外囊泡(extracellular vesicles,EVs),其含有特定的蛋白质、脂质、RNA和DNA,能将信号传递给受体细胞,从而介导细胞通讯过程.缺氧作为一种严重的细胞应激,是脑部疾病的重要特征,可以诱导外泌体的释放并影响其内容物.越来越多的证据显示,外泌体携带的生物活性物质可以...     

Golgi Method without Osmium Tetroxide for the Study of the Central Nervous System

A variant Golgi technique was developed that consisted of substituting osmium tetroxide with formaldehyde as the initial fixative in intracardiac perfusion, along with the addition of glacial acetic acid to the chromating fluid. This procedure avoids disposal of dangerous waste substances into the environment. Other advantages include 1) reduction of cost, danger to lab workers, and risk of disruption of the tissue slices during their handling by eliminating the osmium tetroxide, 2) clear tissue background, 3) greater quantity of impregnated neurons than in the classical procedure, with distinct morphological details easily identified even in gross sections and 4) reduction in processing time.     

外泌体及其在中枢神经系统中的功能

外泌体是一类由细胞分泌至胞外的囊泡,生物发生主要涉及细胞质膜的两次内陷、多囊泡体的形成以及外泌体的释放。外泌体具有丰富多样的内含物,包括一些标志性膜蛋白、可溶蛋白、各类RNA分子和DNA片段等。细胞可以通过分泌和接受外泌体来实现细胞间的信号交流,外泌体通过膜上携带的配体分子与其他细胞质膜表面的受体相互作用,从而激活细胞的信号转导或与受体细胞质膜发生融合释放内容物进入胞质来发挥调节功能。在中枢神经系统中,神经元及各类神经胶质细胞分泌的神经外泌体可以介导布线式的突触信号传递,但主要还是以容积传递的方式发挥类似神经调质的功能。本文详细阐述了外泌体的生物发生过程及部分重要的功能性成分,就神经外泌体在发生、内容物分选和受控释放三个方面的特性与突触囊泡进行比较,总结了神经外泌体在中枢神经系统中发挥的生理功能及其在神经退行性疾病和抑郁症发生、发展中作用的研究进展,并对外泌体在神经系统疾病早期诊断及靶向治疗方面的应用前景进行了展望。     

Notch1与NF—KB信号通路在中枢神经系统疾病中的串话

Notch1与NF—KB信号通路之间存在着复杂的串话关系,彼此之间的相互影响不仅在生命体正常生理活动中意义重大,同时也是很多疾病及其并发症发生发展的病理因素所在。近年来的许多研究表明,Notchl与NF—KB信号通路之间复杂的串话与脑内炎症、肿瘤、发育障碍等多种中枢神经系统疾病密切相关。     

东北小鲵中枢神经系统形态学与组织学初步研究

本文应用脊椎动物神经标本制作法和HE染色法,对东北小鲵中枢神经系统的外部形态和组织学结构进行了初步研究,描述了东北小鲵神经系统形态和组织学结构的特点,并与无尾两栖类和爬行类相对比,探讨了有尾两栖类的进化地位。结果表明:与无尾两栖类(如蛙)相比,东北小鲵中枢神经系统中,大脑半球较小,结构较为原始,小脑结构简单,是两栖类中较为原始的类群。此外,东北小鲵开始具有了臂神经丛和骶神经丛,但没有爬行类的发达,可作为两栖类向爬行类进化的证据之一。     

Selective Axonal Argentaffin Staining in Rat Central Nervous System after Protein Mercuration

The mercury-silver (Hg-Ag) argentaffin technique, known to stain specifically proteins in the lateral components of triads/diads in striated muscle cells, was applied to the central nervous system of adult rats. Following fixation in glutaraldehyde, axons in white and gray matter were selectively stained, but not perikarya or their proximal axon and dendrites. Neural tissues were postfixed 24 hr in 5% (w/v) mercuric acetate in 2% (v/v) acetic acid in distilled water, stained for 12-24 hr in darkness at 37-43 C with ammoniacal silver nitrate solution, freshly prepared by adding concentrated ammonia to 60% (w/v) silver nitrate solution until a small amount of silver oxide precipitate remained undissolved. Samples were then washed with freshly prepared 5% (w/v) sodium sulfite and distilled water. All steps were carried out using dark-colored glass flasks. Samples were dehydrated with ethanol and embedded in Paraplast or Poly Bed. Electron microscopy showed the silver-reducing protein inside the axons. Methylation abolished Hg-Ag axonal reactivity indicating that carboxyl groups were necessary for silver staining. Proteins with solubility properties characteristic of neurofilament proteins were involved in Hg-Ag staining. In the cerebellum the plexus of parallel fibers in the molecular layer were not stained, while basket cell axonal processes reacted intensely. The method appears to distinguish neuronal protein variants related to cytotypic differences in cytoskeletal neurofilaments.     

Characterization and Regional Distribution of Individual Gangliosides in Goldfish Central Nervous System

Gangliosides were partially purified from goldfish brain and fractionated by DEAE Fractogel column chromatography. Each fraction was then analyzed by HPTLC and also by HPLC after conversion of the gangliosides to 2,4-dinitrophenylhydrazides. The tetrasialoganglioside GQ1c was found to constitute more than 50% of the total gangliosides. Gangliosides in smaller quantities were also tentatively identified. These included GT1b, GT1c, GT2, GT3, GD1a, and several others. By using this information, the amounts of individual gangliosides in various regions of goldfish central nervous system were compared. Although all areas of brain examined contained similar concentrations of gangliosides, with GQ1c as the predominant component, retina and optic nerve contained significantly lower concentrations of GQ1c, and GM3 was the major component.