Maternal zinc deficiency impairs brain nestin expression in prenatal and postnatal mice

Effects of maternal dietary zinc deficiency on prenatal and postnatal brain development were investigated in ICR strain mice. From d 1 of pregnancy (E0) until postnatal d 20 (P20), maternal mice were fed experimental diets that contained 1 mg Zn/kg/day (severe zinc deficient, SZD), 5 mg Zn/kg/day (marginal zinc deficient, MZD), 30 mg Zn/kg/day (zinc adequately supplied, ZA) or 100 mg Zn/kg/day (zinc supplemented, ZS and pair-fed, PF). Brains of offspring from these dietary groups were examined at various developmental stages for expression of nestin, an intermediate filament protein found in neural stem cells and young neurons. Immunocytochemistry showed nestin expression in neural tube 10.5 d post citrus (dpc) as well as in the cerebral cortex and neural tube from 10.5 dpc to postnatal d 10 (P10). Nestin immunoreactivities in both brain and neural tube of those zinc-supplemented control groups (ZA, ZS, PF) were stronger than those in zinc-deficient groups (SZD and MZD). Western blot analysis confirmed that nestin levels in pooled brain extracts from each of the zinc-supplemented groups (ZA, ZS, PF) were much higher than those from the zinc-deficient groups (SZD and MZD) from 10.5 dpc to P10. Immunostaining and Western blots showed no detectable nestin in any of the experimental and control group brains after P20. These observations of an association between maternal zinc deficiency and decreased nestin protein levels in brains of offspring suggest that zinc deficiency suppresses development of neural stem cells, an effect which may lead to neuroanatomical and behavioral abnormalities in adults.

体外循环术后血清S-100蛋白浓度变化及其意义

【目的】观察体外循环 (心肺转流术 )术后血清S 10 0蛋白浓度变化 ,判断体外循环对脑损伤的影响。【方法】 17例接受体外循环心脏直视手术患者 ,平均体外循环时间 75 1min ,主动脉阻断时间 46 8min。术前、术后 30min、6h、2 4h取颈内静脉血标本 ,离心后取血清检测S 10 0蛋白浓度。【结果】血清S 10 0蛋白浓度从术前平均 0 44 μg/L上升至术后 30min的2 6 9μg/L ,随后下降 ,至术后 2 4h基本恢复术前水平 ;2例转机时间超过 12 0min者术后血清S 10 0蛋白水平显著高于其他患者 ;血清S 10 0蛋白浓度水平与转机时间呈正相关。【结论】体外循环术后患者血清S 10 0蛋白浓度显著升高 ,特异性的提示体外循环术后脑损伤的存在。

基于功能近红外光谱技术(fNIRs)的帕金森病大鼠模型脑组织特性研究

利用功能近红外光谱技术(functionality near infrared spectroscopy,fNIRs)探索帕金森病(parkin-son′s disease,PD)大鼠模型的脑组织功能特性。通过小动物磁共振(magnetic resonance imaging,MRI)和电子计算机断层扫描(computed tomography,CT)对PD大鼠模型进行影像学研究,用fNIRs系统测试大鼠模型脑组织纹状体特征参数。实验结果表明,PD大鼠脑部没有明显的形态结构变化;优化散射系数(reducedscattering coefficient:μ′s)、脑血容量(cerebral blood volume:CBV)在PD大鼠的纹状体部与对照组间存在显著的差别;fNIRs测量参数(μ′s、CBV)与CT灌注(CTP)测定参数[CBF(cerebral blood flow),CBV]之间存在相关性。这些结果表明fNIRs可以作为PD研究的重要参考手段。

铝中毒雏鸡脑组织SOD活性及铜锌锰含量变化

采用连续腹腔注射固定体积不同浓度梯度三氯化铝法建立不同程度的铝中毒雏鸡模型,采用火焰原子吸收法检测雏鸡大脑和小脑组织中微量元素铜、锌、锰含量及总SOD和CuZn-SOD活性。结果显示,随着染铝浓度的升高,雏鸡脑组织中微量元素铜、锌、锰含量及总SOD和CuZn-SOD活性降低,与对照组相比,组间差异显著(P<0.05,P<0.01),且存在剂量-效应关系,提示铝中毒雏鸡脑组织SOD活性下降及铜、锌、锰代谢紊乱。

S-100B蛋白在颅脑损伤中的表达及其修复作用

介绍S-100B蛋白的生化性质及其在脑组织中特异性和高敏感性的表达。由于这些特点,S-100B蛋白作为损伤程度和预后的判断指标有重要的临床意义。另外,S-100B具有神经营养因子的作用,适量浓度的S-100B可在损伤部位产生神经再生效应。

纳洛酮对创伤性脑损伤患者血浆ET,CGRP,S-100B含量的影响

【目的】观察纳洛酮对创伤性脑损伤 (TBI)患者血浆内皮素 (ET)、降钙素基因相关肽 (CGRP)、神经组织蛋白 (S 10 0B)含量的影响 ,探讨纳洛酮对急性TBI患者的治疗效果。【方法】用放射免疫测定法测定TBI患者血浆ET 1、CGRP的含量变化 ,用酶联免疫吸附实验测定S 10 0B的含量变化。【结果】①脑损伤后患者血浆ET 1(d1、d3 、d5)明显升高 ,病情越重升高越明显 ;②纳洛酮治疗后血浆ET 1含量下降较对照组显著 ,CGRP早期 (d1)较对照组明显升高 ;③TBI患者血浆中脑损伤特异性蛋白S 10 0B明显升高 ,脑损伤程度越重 ,升高越明显。【结论】①TBI患者血浆ET 1及S 10 0B水平升高 ,与病情严重程度有关。②ET、CGRP平衡失调在TBI的病理过程中起到重要作用。③早期应用纳洛酮可以显著降低ET 1及S 10 0B血浆含量 ,提高CGRP水平 。

凡纳滨对虾G蛋白Gα_s基因的克隆和功能鉴定

寻找并克隆凡纳滨对虾G蛋白α亚基基因,为对虾的生理调控研究提供理论基础.通过简并PCR和RACE技术获得目的基因的全长cDNA序列.将该基因的编码序列克隆到pCMV5表达载体,通过免疫共沉淀实验和胞内cAMP浓度的测定鉴定该基因表达产物的功能.用半定量RT-PCR和Western blotting确定该基因的表达产物在对虾身体各部位的分布.克隆到凡纳滨对虾的G蛋白短式剪切模式Gαs亚基基因,将其表达产物命名为pvGαs-s.pvGαs-s的序列和功能与其它物种的Gαs具有高度保守性.它在对虾身体各部位存在普遍分布,尤其在脑神经和腮中大量表达,在触角、眼等部位也有适量分布.说明pvGαs-s在对虾生命活动中的重要性,为研究对虾的生理调控奠定了理论基础.

MicroRNAs in Parkinson's disease and emerging therapeutic targets

Parkinson＇s disease（PD） is the second most common age-related neurodegenerative disorder, with the clinical main symptoms caused by a loss of dopaminergic neurons in the substantia nigra, corpus striatum and brain cortex. Over 90% of patients with PD have sporadic PD and occur in people with no known family history of the disorder. Currently there is no cure for PD. Treatment with medications to increase dopamine relieves the symptoms but does not slow down or reverse the damage to neurons in the brain. Increasing evidence points to inflammation as a chief mediator of PD with inflammatory response mechanisms, involving microglia and leukocytes, activated following loss of dopaminergic neurons. Oxidative stress is also recognized as one of the main causes of PD, and excessive reactive oxygen species（ROS） and reactive nitrogen species can lead to dopaminergic neuron vulnerability and eventual death. Micro RNAs control a range of physiological and pathological functions, and may serve as potential targets for intervention against PD to mitigate damage to the brain. Several studies have demonstrated that micro RNAs can regulate oxidative stress and prevent ROS-mediated damage to dopaminergic neurons, suggesting that specific micro RNAs may be putative targets for novel therapeutic strategies in PD. Recent human and animal studies have identified a large number of dysregulated micro RNAs in PD brain tissue samples, many of which were downregulated. The dysregulated micro RNAs affect downstream targets such as SNCA, PARK2, LRRK2, TNFSF13 B, LTA, SLC5 A3, PSMB2, GSR, GBA, LAMP-2 A, HSC. Apart from one study, none of the studies reviewed had used agomirs or antagomirs to reverse the levels of downregulated or upregulated micro RNAs, respectively, in mouse models of PD or with isolated human or mouse dopaminergic cells. Further large-scale studies of brain tissue samples collected with short postmortem interval from human PD patients are warranted to provide more information on the micro RNA profiles in different brain regions and to test for gender differences.

Endovascular Application of Low-Energy Laser in the Treatment of Dyscirculatory Angiopathy of Alzheimer’s Type

Purpose: We propose an analysis of dyscirculatory angiopathy of Alzheimer’s type (DAAT) endovascular treatment method based on transcatheter revascularization and recovery of collateral and microvascular bed of the brain by means of low-energy transluminal laser irradiation as well as its comparison with traditional Alzheimer’s disease (AD) treatment methods. Methods: The research involved 81 patients aged 34 - 79 (average age 67). 46 (46.8%) patients were treated using endovascular method—Test Group. 35 (43.2%) patients were given conventional treatment—Control Group. Patients were subdivided: Group (CDR-0): 9 (11.1%), pre-clinical stage or increased AD risk;Group (CDR-1): 24 (29.6%), mild dementia and cognitive impairment;Group (CDR-2): 31 (38.3%), moderate dementia and persistent cognitive impairment;Group (CDR-3): 17 (21.0%), severe dementia and cognitive impairment. Research plan included CT or MRI with subsequent temporal lobes volume calculation, brain scintigraphy (SG), rheoencephalography (REG), and cerebral MUGA. There were indications and contraindications for treatment in Test Group. In Group CDR-0, endovascular intervention was prophylactic, against the background of increasing memory impairment;in Groups CDR-1, CDR-2, CDR-3, it was conducted in 1 to 12 years period from AD symptoms appear-ance. Conservative treatment with Memantin and Rivastigmine was carried out in Control Group. Results: In Test Group, positive outcome accompanied by prolonged dementia decline, cognitive impairment decrease, and patients’ transition to CDR group of an earlier stage, was obtained in all cases. In Control Group, patients’ temporary stabilization in their own CDR group was achieved. Conclusions: Endovascular treatment of patients with AD different stages can not only reduce DAAT phenomena but can also cause AD regression possibly accompanied by regenerative processes in the cerebral tissue. Conservative treatment only allows stabilizing the patient’s condition for a while.

MicroRNA biomarkers in frontotemporal dementia and to distinguish from Alzheimer's disease and amyotrophic lateral sclerosis

Frontotemporal lobar degeneration describes a group of progressive brain disorders that primarily are associated with atrophy of the prefrontal and anterior temporal lobes.Frontotemporal lobar degeneration is considered to be equivalent to frontotemporal dementia.Frontotemporal dementia is characterized by progressive impairments in behavior,executive function,and language.There are two main clinical subtypes:behavioral-variant frontotemporal dementia and primary progressive aphasia.The early diagnosis of frontotemporal dementia is critical for developing management strategies and interventions for these patients.Without validated biomarkers,the clinical diagnosis depends on recognizing all the core or necessary neuropsychiatric features,but misdiagnosis often occurs due to overlap with a range of neurologic and psychiatric disorders.In the studies reviewed a very large number of microRNAs were found to be dysregulated but with limited overlap between individual studies.Measurement of specific miRNAs singly or in combination,or as miRNA pairs(as a ratio)in blood plasma,serum,or cerebrospinal fluid enabled frontotemporal dementia to be discriminated from healthy controls,Alzheimer’s disease,and amyotrophic lateral sclerosis.Furthermore,upregulation of miR-223-3p and downregulation of miR-15a-5p,which occurred both in blood serum and cerebrospinal fluid,distinguished behavioral-variant frontotemporal dementia from healthy controls.Downregulation of miR-132-3p in frontal and temporal cortical tissue distinguished frontotemporal lobar degeneration and frontotemporal dementia,respectively,from healthy controls.Possible strong miRNA biofluid biomarker contenders for behavioral-variant frontotemporal dementia are miR-223-3p,miR-15a-5p,miR-22-3p in blood serum and cerebrospinal fluid,and miR-124 in cerebrospinal fluid.No miRNAs were identified able to distinguish between behavioral-variant frontotemporal dementia and primary progressive aphasia subtypes.Further studies are warranted on investigating miRNA expression in biofluids and frontal/temporal cortical tissue to validate and extend these findings.

心肺复苏后血清神经元特异性烯醇化酶、S100β蛋白对脑损伤早期诊断的价值

目的观察心肺复苏（CPB）后血清神经元特异性烯醇化酶（NSE）、S100β蛋白的水平变化，确定其在CPB脑损伤早期诊断价值。方法选择CPB后继续脑复苏患者．恢复自主循环（ROSC）后6hr抽血测定血清NSE、S100β蛋白，并随访转归情况，分为神志转清组（1组）与神志恶化或死亡组（2组）。结果2组NSE、S100β蛋白水平均明显高于1组。结论血清NSE、S100β蛋白水平可作为一个诊断CPB后早期脑损伤程度有价值指标。

3种培养基对鸡肉产品中两类耐药菌培养的影响

目的:评估不同培养基对鸡肉产品表面四环素耐药(T^(r))菌和磺胺耐药(S^(r))菌菌群的培养效果差异。方法:基于高通量测序技术,分析分别在脑心浸液肉汤(BHI)、胰蛋白胨大豆琼脂(TSA)和平板计数琼脂(PCA)3种培养基上培养获得的冷鲜鸡和鸡肉熟食表面T^(r)菌和S^(r)菌的菌群结构及丰度。结果:在冷鲜鸡表面鉴定到的101个属的耐药细菌中,仅在BHI、TSA和PCA培养基上获得培养的特有T^(r)菌属各有30,5,3个,特有S^(r)菌属各有9,8,14个;在鸡肉熟食样品表面鉴定到的50个属的耐药菌中,3种培养基上的特有T^(r)菌属分别为3,2,1个,特有S^(r)菌属分别为1,6,0个。耐药菌属丰度差异的Metastat分析结果表明,BHI和TSA对耐药菌群的结构影响具有较高的相似性,冷鲜鸡表面4种T^(r)菌(气单胞菌属Aeromonas spp.、水栖菌属Enhydrobacter spp.、乳杆菌属Lactobacillus spp.和泛菌属Pantoea spp.)和2种S^(r)菌(肠球菌属Enterococcus spp.和乳杆菌属Lactobacillus spp.)在PCA培养基上获得培养的稳定性及丰度均较高。结论:不同培养基获得耐药菌的种类及丰度存在差异,应汇总多种培养基培养所得菌群的测序信息,才能完整描述鸡肉样品表面耐药菌的组成。

DON暴露对雏鸡神经递质及钙调蛋白含量的影响

【目的】通过DON暴露体内试验,根据雏鸡脑组织中神经递质含量及钙调蛋白(CAM)含量的变化,研究DON对雏鸡的神经毒性作用。【方法】选取120只健康1日龄海兰蛋鸡(公)预饲1周后,按单因素试验设计随机均分为DON低、中、高剂量组和对照组,对照组和试验组饲喂相同的全价日粮。DON低剂量组、中剂量组和高剂量组分别按采食量中含DON 0.27,1.68和12.21mg/kg的剂量灌胃,对照组灌服等量的生理盐水。试验从第8天开始,每隔7d染毒1次,共染毒5次。试验期为36d。试验结束时,每组随机屠宰20只鸡,迅速取出脑组织,检测神经递质含量和CAM含量的变化。【结果】经高效液相色谱-荧光检测法(HPLC-FD)检测,雏鸡脑组织中未发现5-羟色胺吲哚乙酸(5-HIAA);与对照组相比,DON高剂量组雏鸡脑组织中去甲肾上腺素(NE)和5-羟色胺(5-HT)含量显著升高(P<0.05),而多巴胺(DA)含量显著降低(P<0.05)。与对照组相比,DON中、高剂量组雏鸡神经细胞内游离钙([Ca2+]i)浓度和脑组织中CAM含量显著降低(P<0.05),不同DON剂量组CAM mRNA基因相对表达量均显著降低(P<0.05)。【结论】DON暴露可引起雏鸡神经钙稳态变化,并影响部分神经递质的分泌,对雏鸡具有一定的神经毒性作用。

V_E缺乏对雏鸡脑组织的氧化状态及神经细胞凋亡的影响

采用低 VE和添加不饱和脂肪酸的日粮饲喂 1日龄雏鸡 ,建立了 VE缺乏实验动物模型 ,检测其脑组织 (大脑和小脑 )中丙二醛和活性氧的含量及神经细胞凋亡的数量 ,并进行了相关性分析。结果表明 ,VE缺乏雏鸡脑组织中的丙二醛和活性氧含量及神经细胞凋亡的数量显著高于健康对照组 (P<0 .0 5 ) ,细胞凋亡的数量与大、小脑组织中丙二醛和活性氧含量呈显著的相关性 (相关系数分别为 0 .75 0 2、0 .815 5和 0 .8170、0 .6 931) ,说明 VE缺乏雏鸡脑组织处于氧化应激状态 。

铝暴露对鸡大脑组织钙稳态的影响

以1周龄海蓝白蛋鸡为实验对象,采用连续腹腔注射的方法建立铝中毒模型,研究铝对鸡大脑组织钙稳态的影响。实验设对照、低、中、高4个剂量组,暴露剂量分别为0、18.31、27.47、36.62mg/(kg·d)(Al3+),染铝60d后,用原子吸收分光光度法检测鸡大脑组织中铝的含量,以Fura-2/AM作为细胞内游离钙离子荧光指示剂,检测鸡大脑神经细胞中游离钙离子浓度([Ca2+]i),采用半定量RT-PCR法检测鸡大脑组织中钙调蛋白(CaM)mRNA的表达。结果表明,各染铝组鸡大脑组织铝含量、神经细胞[Ca2+]i显著高于对照组(P<0.05,P<0.01),CaMmRNA表达水平显著低于对照组(P<0.05,P<0.01);且呈剂量-效应关系。提示铝暴露可致鸡大脑神经细胞内钙稳态失调。

双向凝胶电泳分析感染禽脑脊髓炎病毒鸡脑组织蛋白表达图谱

本研究采用双向凝胶电泳分离接毒组(感染AEV)和对照组(不接毒)的鸡脑组织全蛋白,经过银染后,用Image ScannerⅡ光密度扫描仪获取凝胶图像,并用Image Master 2D Platinum软件进行差异蛋白分析。对蛋白斑点编辑后,接毒组中检测到793个蛋白点,对照组中检测到827个蛋白点,两张图谱的匹配蛋白点数为614个,凝胶匹配率为75.8%。差异蛋白分析后,发现在接毒组中有16个蛋白点表达量显著下调,这些蛋白质成份可能与组织细胞病变有关,它们将为认识禽脑脊髓炎的发病机理提供线索。

健脑生智口服液对老年痴呆模型大鼠的影响

目的研究健脑生智口服液的抗老年痴呆作用。方法腹腔注射D-半乳糖复制老年痴呆大鼠模型,测定Y型电迷路测试记忆成绩即每次大鼠逃入安全区的正确反应次数和大鼠脑组织超氧化物歧化酶(SOD)、乙酰胆碱酯酶(AchE)活性以及脑组织一氧化氮(NO)、脑蛋白含量。结果健脑生智口服液能显著增加大鼠Y型电迷路正确反应次数;升高大鼠脑组织SOD活性和脑蛋白含量,降低脑组织AchE活性和NO含量。结论健脑生智口服液具有抗老年痴呆的作用。

丙泊酚对脑缺血再灌注大鼠脑组织Homer-1a表达的影响及其机制

目的观察丙泊酚对脑缺血再灌注大鼠脑组织Homer-1a表达的影响,并探讨其机制。方法雄性SD大鼠120只,随机分为假手术组、造模组、丙泊酚组,每组40只。模型组、丙泊酚组线栓法建立脑缺血再灌注模型,假手术组仅行血管分离处理不插入线栓;造模后30 min,丙泊酚组腹腔注射丙泊酚10 mg/100 g,假手术组和对照组均腹腔注射等体积生理盐水。给药处理3 h、24 h、72 h、7 d分别进行神经功能评分,采用Real-time PCR法检测脑组织Homer-1a mRNA,应用酶联免疫吸附法检测血清S-100β。结果与假手术组比较,模型组和丙泊酚组4个时间点神经功能评分、血清S-100β水平均增加(P均<0.05),以模型组增高更显著(P均<0.05)。与假手术组相比,模型组在3、24 h时间点脑组织Homer-1a mRNA降低(P均<0.05);丙泊酚组4个时间点脑组织Homer-1a mRNA均较其他两组升高(P均<0.05)。在所有大鼠样本中,脑组织Homer-1a mRNA表达与血清S-100β呈负相关(r=-0.939,P<0.01)。结论丙泊酚麻醉可通过诱导脑组织Homer-1a mRNA表达发挥对脑缺血再灌注大鼠的脑保护作用,该作用可能与其降低血清S-100β水平有关。

Human Brain Slice Culture: A Useful Tool to Study Brain Disorders and Potential Therapeutic Compounds

Investigating the pathophysiological mechanisms underlying brain disorders is a priority if novel therapeutic strategies are to be developed. In vivo studies of animal models and in vitro studies of cell lines/primary cell cultures may provide useful tools to study certain aspects of brain disorders. However, discrepancies among these studies or unsuccessful translation from animal/cell studies to human/clinical studies often occur, because these models generally represent only some symptoms of a neuropsychiatric disorder rather than the complete disorder. Human brain slice cultures from postmortem tissue or resected tissue from operations have shown that, in vitro, neurons and glia can stay alive for long periods of time, while their morphological and physiological characteristics, and their ability to respond to experimental manipulations are maintained. Human brain slices can thus provide a close representation of neuronal networks in vivo, be a valuable tool for investigation of the basis of neuropsychiatric disorders, and provide a platform for the evaluation of novel pharmacological treatments of human brain diseases.A brain bank needs to provide the necessary infrastructure to bring together donors, hospitals, and researchers who want to investigate human brain slices in cultures of clinically and neuropathologically well-documented material.

Retinal dopamine transporter in experimental myopia

OBJECTIVE: To investigate the distribution, changes and a possible role for retinal dopamine transporter (DAT) in experimental myopia in chickens. METHODS: Two-day-old chickens were divided into four groups. Chicken eyes were fitted with lenses of -10D,-20D and translucent goggles unilaterally. Normal eyes were used as controls. After 3 wk, all chickens were given an intramuscular injection of (125)I-beta-CIT 2beta-carbomethoxy-3beta-(4-iodophenyl)tropane and sacrificed two hours post injection. Retinal pigment epithelium (RPE) and the neural retina were obtained together or RPE was dissected out from the neural retina. Radioactive DAT from each specimen was assayed by gamma-counter. RESULTS: Retinal DAT was detected in RPE specimens rather than in the neural retina in all eyes. Radioactive DAT in myopic eyes was higher, compared with control eyes. CONCLUSIONS: Retinal DAT is mainly located in the RPE and may be involved in the formation of lens induced myopia (LIM) and form deprivation myopia (FDM). These methods may provide a new approach for further studying the role of the dopamine system in experimental myopia.