应激导致抑郁症与单胺类递质系统稳态

当机体受到各种应激刺激时,机体会产生一系列特异性和非特异性反应,使机体的生理功能维持在新的稳态。如果应激持续时间过长,或者程度过于强烈,超过了机体稳态调节的范围,应激刺激就会对机体生理功能的稳态产生破坏。与应激相关的精神障碍不仅抑郁症一种,应激影响单胺类递质系统造成抑郁症可能主要是影响了5-HT递质系统的功能,而对NE递质系统或DA递质系统造成的影响不是导致抑郁症发病的主要原因。应激除了改变神经系统,还会影响机体内分泌系统,免疫系统,使抑郁症病人的发病和临床症状极为复杂。主要综述应激,特别是长期的、慢性的应激引起单胺能神经递质系统改变,进而导致抑郁症的神经生物学机制研究进展。     

色氨酸对应激小鼠行为学和脑内单胺类递质的影响

本文以小鼠为实验材料建模,依次进行了Morris水迷宫、跳台、强迫游泳实验。结果显示,应激可导致小鼠学习记忆能力下降,容易出现绝望情绪,下丘脑5-HT含量下降,NE含量上升,灌胃高低剂量色氨酸(100,200mg·kg-1 bw)均可显著提高小鼠学习记忆能力,缓和绝望情绪。低剂量色氨酸在增加下丘脑5-羟色胺(5-HT)含量和降低去甲肾上腺素(NE)含量方面效果更显著。结果表明,适量色氨酸可以有效改善应激小鼠相关行为学评分,其机制可能与下丘脑5-HT和NE的含量有关。     

PVS患者血浆及脑脊液中单胺类递质的变化及相关性研究

目的探讨持续性植物状态(PVS)患者血浆和脑脊液(CSF)中单胺类递质水平与PVS发病的关系.方法采用高压液相色谱(HPLC)方法测定.结果PVS患者血浆中多巴胺(DA)的含量(μmol/L)为1.95±0.99,较对照组(1.16±0.47)显著升高(P<0.05),而5-羟色胺(5-HT)、酪氨酸(TYR)、色氨酸(TRP)、γ-氨基丁酸(GABA)的含量(μmol/L)较对照组均无显著差异(P均>0.05).脑脊液中,A较对照组无显著差异;5-HT的含量(μmol/L)为(0.49±0.32),较对照组(1.02±0.35)显著降低(P<0.05);而TYR(1.36±0.11)、TRP(0.63±0.40)、GABA(1.15±0.61)的含量分别较对照组(0.40±0.24、0.29±0.22、0.37±0.45)有显著升高(P<0.05、P<0.05、P<0.01).血浆中GABA与DA的含量呈相关性(P<0.05).脑脊液中GABA与DA的含量也呈相关性(P<0.01).结论CSF中5-HT下降和血浆中DA升高可能与PVS的发生和发展过程有关.     

微重力及模拟微重力对植物生长的影响

重力对地球上生物的生长、发育、代谢及繁殖等具有重要影响.植物细胞的重力敏感性已被众多研究所证明,在空间微重力环境或地面模拟微重力环境下,植物表现特殊的微重力反应.微重力或模拟微重力会对植物体生长产生一系列的影响.综述微重力及模拟微重力对植物生长的影响,并对近期这一领域的研究进行了概括.     

合欢花对慢性应激大鼠生长和脑单胺类神经递质含量的影响

为探讨合欢花对慢性应激大鼠生长和脑单胺类神经递质的影响,采用15只大鼠,设置了对照组、应激组和合欢花组3组实验。应激组和合欢花组均接受7天的应激刺激,之后合欢花组再灌胃合欢花10天。实验结束后,取3组大鼠的脑组织,用高效液相色谱法测定高香草酸(HVA)、去甲肾上腺素(NE)、多巴胺(DA)和5-羟色胺(5-HT)的含量。结果表明,应激组大鼠日增重显著低于对照组(P=0.011);而合欢花组大鼠的日增重极显著高于应激组(P=0.002)。应激组大鼠海马、纹状体和前额叶中的HVA含量与对照组相比,虽有升高的趋势,但无显著差异;两组间的NE、DA和5-HT也无显著差异。合欢花组大鼠海马中的HVA、DA含量明显高于应激组,而前额叶中的多巴胺和5-羟色胺,以及纹状体中的5-羟色胺均明显低于应激组。这表明合欢花对慢性应激引起的大鼠生长受抑有缓解作用,对其脑内单胺类神经递质有调节作用。     

大鼠冷暴露过程中不同脑区和血清中单胺类递质及代谢物质的变化

用高效液相色谱电化学检测法观测了大鼠冷暴露（５±２℃,２１天）过程中下丘脑、海马、桥延脑和血清中单胺类递质及主要代谢物质含量的变化。结果显示,在冷暴露初期（２４小时）在下丘脑和血清中去甲肾上腺素、肾上腺素和多巴胺含量分别显著地减少或增加,２１天后下丘脑中去甲肾上腺素量趋于正常,肾上腺素和多巴胺仍分别明显低或高于正常水平。桥延脑中去甲肾上腺素和３甲氧基４羟基苯乙二醇的含量先增加后恢复正常,而肾上腺素和多巴胺的含量无明显变化。与之不同,下丘脑和血清中５羟色胺和５羟吲哚乙酸的含量无明显变化,而海马和桥延脑中５羟色胺和５羟吲哚乙酸的含量明显减少且一直呈低水平状态。上述脑内和血清中单胺类递质含量的不同变化反映了不同单胺类递质可能以不同的机制和时空模式参与冷应激反应和冷适应的体温调节。     

贯叶连翘对应激大鼠生长和脑单胺类神经递质含量的影响

为探讨贯叶连翘对慢性应激大鼠生长和脑单胺类神经递质的影响,用15只大鼠设置对照组、应激组和贯叶连翘组3组实验。应激组和贯叶连翘组均进行7天的应激刺激后,贯叶连翘组灌胃贯叶连翘10d。实验结束后,取3组大鼠的脑组织,用高效液相色谱法测定高香草酸(HVA)、去甲肾上腺素(NE)、多巴胺(DA)和5-羟色胺(5-HT)的含量。结果表明,应激组大鼠日增重明显低于对照组;而贯叶连翘组大鼠的日增重明显高于应激组。应激组大鼠海马、纹状体和前额叶中的HVA、NE、DA和5-HT与对照组间均无显著差异。贯叶连翘组大鼠纹状体中的DA含量明显高于应激组;而前额叶中的DA则明显低于应激组。因此,贯叶连翘对慢性应激引起的大鼠生长受抑有缓解作用,对其脑内单胺类神经递质有部分调节作用。     

模拟微重力对拟南芥幼苗的影响

对正常条件和模拟微重力条件下拟南芥幼苗的生长状况进行了研究,发现拟南芥幼苗的生长发育、生理生化特性、酶活性等均发生一系列的变化.并利用qRT-PCR技术深入研究了经模拟微重力处理的幼苗过氧化物酶的基因表达量的变化.这些结果为植物在受控生态生保系统中的生长提供了试验支持.     

氟哌利多增强电针镇痛时大鼠脑内微透析液中单胺类递质的变化

本文采用大鼠脑内微透析及高效液相色谱电化学联检技术,观察多巴胺受体拮抗剂氟哌利多加强电针镇痛时大鼠脑人微透析液中单胺类递质的变化,从而探讨药物加强针刺镇痛的机制。结果显示,ＥＡ与ＤＡ及其代谢产物高香草酸在透析液中含量增加,ＤＲＯ与ＥＡ合用后,两者的含量较单用ＥＡ又有明显增加。     

大鼠新生期注射谷氨酸单钠成年后应激时的镇痛效应和血浆皮质酮反应

在大鼠新生期注射谷氨酸单钠,观察动物成年后应激时的镇痛效应和血浆皮质酮反应,以新生期注射１０％ＮａＣｌ作为等渗对照。ＭＳＧ组大鼠下丘脑弓状核的β－内啡肽免疫反应细胞减少６０．７％,痛阈和血浆质酮的基础值未受影响,在不可射避的持续电刺激四肢脚底３０ｍｉｎ后,ＭＳＧ组动物应激镇痛效应明显降低,但应激仍可使血浆皮质酮水平明显升高。实验结果提示,ＡＲＣ的β－ＥＮＤ能神经元参与激镇痛,而对垂体－肾上腺皮质系     

Reduced shear stress: A major component in the ability of mammalian tissues to form three-dimensional assemblies in simulated microgravity

BHK-21 cells were cultured under various shear stress conditions in an Integrated Rotating-Wall Vessel (IRWV). Shear ranged from 0.5 dyn/cm² (simulated microgravity) to 0.92 dyn/cm². Under simulated microgravity conditions, BHK-21 cells complexed into three-dimensional cellular aggregates attaining 6 × 10⁶ cells/ml as compared to growth under 0.92 dyn cm² conditions. Glucose utilization in simulated microgravity was reduced significantly, and cellular damage at the microcarrier surface was kept to a minimum. Thus, the integrated rotating wall vessel provides a quiescent environment for the culture of mammalian cells. © 1993 Wiley-Liss, Inc.     

模拟微重力对肺动脉和胸主动脉的影响

目的 :通过对模拟微重力 (SM)、肺动脉 (PA)和胸主动脉 (TA)局部调节机理研究 ,为大小循环动脉对SM适应机理和SM后立位耐力降低机理研究积累资料。方法 :XXH 2 0 0 0型小循环心功能检测仪检测人体头低位 6°卧床(HDT) 7d心肺循环功能变化。 - 30°尾部悬吊 (TS)大鼠模拟微重力 (microgravity ,M)的生理效应 ,测量 7d、1 4dPA和TA的反应性。结果 :人体HDT初期每搏PA(hz)、静脉 (hc)容量和左心前负荷 (hc/hz)均显著增加 ,96～ 1 4 4h大小循环均出现超调现象 ,前者出现时间早、幅度大。 7d尾部悬吊大鼠 (TS7)与对照组 (CON)比PA舒张反应显著增强 ,TS1 4有降低趋势。TS7TA与CON比舒张反应显著增强 ,TS1 4轻度升高。TS7PA收缩反应与CON比轻度降低 ,TS1 4显著降低。TS1 4TA收缩反应显著降低。去VECPA对KCl、苯肾上腺素和硝普钠的反应在所有组间无差异。结论 :SM对大小循环动脉影响不同 ,可能是SM时局部调节功能降低的重要表现 ,主要由于动脉血管内皮细胞功能变化 ,对立位耐力降低可能有贡献     

Effects of simulated microgravity on nitric oxide level in cardiac myocytes and its mechanism

The depression of cardiac contractility induced by space microgravity is an important issue of aerospace medicine research, while its precise mechanism is still unknown. In the present study, we explored effects of simulated microgravity on nitric oxide (NO) level, inducible nitric oxide synthase (iNOS) expression and related regulative mechanism using electron spin resonance (ESR) spectroscopy, immunocytochemistry and in situ hybridization. We found a remarkable increase of NO level and up-regulation of iNOS and iNOS mRNA expression in rat cardiac myocytes under simulated microgravity. Staurosporine (a nonselective protein kinase inhibitor), calphostin C (a selective protein kinase C inhibitor), partially inhibited the effect of simulated microgravity. Thus regulative effect of simulated microgravity on iNOS expression is mediated at least partially via activation of protein kinase C. These results indicate that NO system in cardiac myocytes is sensitive to simulated microgravity and may play an important role in the depression of cardiac contractility induced by simulated microgravity.     

Effects of simulated microgravity on nitric oxide level in cardiac myocytes and its mechanism

Prolonged exposure to space microgravity results in cardiovascular deconditioning and the depression of cardiac contractility, while its mechanism is still unknown[1]. Thus study about ef-fects of microgravity on cardiac myocytes and related mechanism is an important issue in space medicine. It would also contribute to understanding effects of mechanical signal on signal transduction in cardiac myocytes and pathology of related diseases. Nitric oxide (NO) is a universal signal molecular in ce…     

Protein pattern of Xenopus laevis embryos grown in simulated microgravity

Numerous studies indicate that microgravity affects cell growth and differentiation in many living organisms, and various processes are modified when cells are placed under conditions of weightlessness. However, until now, there is no coherent explanation for these observations, and little information is available concerning the biomolecules involved. Our aim has been to investigate the protein pattern of Xenopus laevis embryos exposed to simulated microgravity during the first 6 days of development. A proteomic approach was applied to compare the protein profiles of Xenopus embryos developed in simulated microgravity and in normal conditions. Attention was focused on embryos that do not present visible malformations in order to investigate if weightlessness has effects at protein level in the absence of macroscopic alterations. The data presented strongly suggest that some of the major components of the cytoskeleton vary in such conditions. Three major findings are described for the first time: (i) the expression of important factors involved in the organization and stabilization of the cytoskeleton, such as Arp (actin-related protein) 3 and stathmin, is heavily affected by microgravity; (ii) the amount of the two major cytoskeletal proteins, actin and tubulin, do not change in such conditions; however, (iii) an increase in the tyrosine nitration of these two proteins can be detected. The data suggest that, in the absence of morphological alterations, simulated microgravity affects the intracellular movement system of cells by altering cytoskeletal proteins heavily involved in the regulation of cytoskeleton remodelling.     

Transcriptional analysis of normal human fibroblast responses to microgravity stress

To understand the molecular mechanism（s） of how spaceflight affects cellular signaling pathways, quiescent normal human WI-38 fibroblasts were flown on the STS-93 space shuttle mission. Subsequently, RNA samples from the spaceflown and ground-control cells were used to construct two cDNA libraries, which were then processed for suppression subtractive hybridization （SSH） to identify spaceflight-specific gene expression. The SSH data show that key genes related to oxidative stress, DNA repair, and fatty acid oxidation are activated by spaceflight, suggesting the induction of cellular oxidative stress. This is further substantiated by the up-regulation of neuregulin 1 and the calcium-binding protein calmodulin 2. Another obvious stress sign is that spaceflight evokes the Ras/mitogen-activated protein kinase and phosphatidylinositol-3 kinase signaling pathways, along with up-regulating several Gl-phase cell cycle traverse genes. Other genes showing upregulation of expression are involved in protein synthesis and pro-apoptosis, as well as pro-survival. Interactome analysis of functionally related genes shows that c-Myc is the ＂hub＂ for those genes showing significant changes. Hence, our results suggest that microgravity travel may impact changes in gene expression mostly associated with cellular stress signaling, directing cells to either apoptotic death or premature senescence.     

模拟失重对白假丝酵母菌增殖和毒性的影响

【背景】近年来研究发现,失重条件可对一些致病微生物的增殖和毒性产生影响,白假丝酵母菌(Candida albicans)是典型的条件性致病真菌,在太空环境和人体中普遍存在,研究失重条件下白假丝酵母菌的增殖和毒性意义重大。【目的】利用旋转细胞培养系统(Rotary cell culture system,RCCS)模拟失重环境对白假丝酵母菌进行连续传代培养,检测模拟失重环境对白假丝酵母菌增殖情况、毒性以及基因表达的变化。【方法】将白假丝酵母菌接种在旋转生物反应器(High aspect rotating vessel,HARV)中,利用旋转细胞培养系统连续传代培养14 d,然后对菌株进行增殖速率测定、不同pH条件下增殖能力测定、生物膜相对形成能力测定和细胞毒性和动物毒力测定;利用转录组测序技术找出差异表达基因,结合性状分析模拟失重可能对白假丝酵母菌增殖和毒力的影响。【结果】与对照组相比,模拟失重组白假丝酵母菌对数期提前,增殖速率加快,在适宜pH条件下的增殖能力普遍提高,但其生物膜形成能力相对减弱,对LoVo细胞和小鼠的毒性减弱;转录组测序发现,模拟失重组共有280个基因表达差异达1.5倍以上(P0.05),其中248个上调、32个下调。差异基因经基因功能注释(Gene ontology,GO)和京都基因及基因组百科全书(Kyoto encyclopedia of genes and genomes,KEGG)富集分析发现,相关胞膜形成及细胞分裂基因表达上调,生物膜形成、细胞黏附及共生粘连宿主基因表达下调。【结论】模拟失重环境可引起白假丝酵母菌增殖和毒性水平发生变化,相关改变可为研究失重环境对微生物的影响提供参考。