强啡肽A1—13对谷氨酸诱导的大鼠C6胶质瘤细胞肿胀的影响

目的和方法：探讨脑水肿发病的细胞机制,采用[^3H]OMG摄取的方法测定细胞含水量,观察DynA对谷氨酸诱导的大鼠C6胶质瘤细胞肿胀的影响。结果：①给予0.5,1.0,10.0mmol/L的谷氨酸作用1h均可引起细胞的含水量增加;②DynA可显著降低谷氨酸诱导肿胀的大鼠C6胶质瘤细胞含水量;③κ阿片受体拮抗剂nor-BNI可阻断DynA1-13降低谷氨酸诱导肿胀的大鼠C6胶质瘤细胞含水量的作用。结论：谷氨酸可诱导大鼠C6胶瘤细胞肿胀;DynA1-13可能过激活κ阿片受体抑制谷氨酸诱导的大鼠C6胶质瘤细胞肿胀。     

白介素-2对心肌细胞[Ca~(2 )]_i的作用及其信号转导途径

为研究白介素 2 (interleukin 2 ,IL 2 )对心肌细胞内钙浓度 ([Ca2 ]i)的影响及其信号转导途径 ,实验采用酶解法分离成年大鼠心室肌细胞 ,以Fura 2 /AM为钙探针 ,用细胞内双波长钙荧光系统检测细胞 [Ca2 ]i 的变化。结果发现 :(1)IL 2 (0 5～ 2 0 0U/ml)浓度依赖性地降低单个心室肌细胞内钙瞬态 ,IL 2 (2 0 0U/ml)对咖啡因诱导的肌浆网内储钙的释放无影响 ;(2 )纳洛酮 (naloxone ,Nal) (10 -8mol/L)和nor binaltorphimine (nor BNI,10 -8mol/L)可阻断IL 2对心肌细胞钙瞬态的作用 ,而纳曲吲哚 (naltrindole ,NTI) (10 -6mol/L)不能阻断此作用 ;(3)κ阿片受体激动剂U5 0 488H (10 -6mol/L)降低心肌细胞钙瞬态 ,nor BNI (10 -8mol/L)可阻断此作用 ;(4 ) 5mg/L百日咳毒素 (PTX)预处理可取消IL 2降低心肌细胞钙瞬态的作用 ,而酪氨酸激酶抑制剂genistein (10 -4 mol/L)不能取消IL 2的作用 ;(5 )U7312 2预处理可阻断IL 2的作用。研究结果表明 ,IL 2降低心肌细胞钙瞬态的作用 ,是通过心肌细胞上κ阿片受体介导的 ,其下游途径包括PTX敏感的G蛋白和磷脂酶C。     

苦参碱引起C6胶质瘤细胞凋亡及其对TRADD表达的影响

目的:应用一系列分子生物学检测技术采检测苦参碱对胶质瘤细胞中TRADD表达的影响,以进一步推测其诱导胶质瘤细胞凋亡的作用机制.方法:采用MTT法测定不同浓度苦参碱作用于C6胶质瘤细胞后的吸光值以计算其抑制率:采用Annexin/FITC染色进行流式细胞术检测来测定不同浓度苦参碱诱导C6胶质瘤细胞的凋亡率;采用ICC(免疫细胞化学)、Westem-blotting及Real-timePCR array(实时定量PCR芯片)方法来检测苦参碱对胶质瘤细胞TRADD表达的影响.结果:MTT结果显示细胞抑制率随着药物剂量的增加而增加;Annexin/FITC染色进行流式细胞术的检测结果显示胶质瘤细胞的凋亡率随着药物剂量的增加而增加;ICC、Western-blotting及Real-time PCR array结果显示苦参碱可诱导胶质瘤细胞TRADD基因及蛋白表达的上调.结论:苦参碱可以诱导胶质瘤细胞凋亡,其诱导胶质瘤细胞凋亡可能是通过上调TRADD的表达,以死亡受体途径来实现的.     

谷氨酸、NMDA 和吗啡对培养大鼠星形胶质细胞内钙振荡的影响

目的:研究谷氨酸、NMDA、吗啡对原代培养的大鼠星形胶质细胞的胞内钙信号的影响及受体作用机制.方法:利用Leica AF6000活细胞工作站,检测谷氨酸、NMDA、吗啡分别灌流前后Fura-2/AM加载的星形胶质细胞内钙信号的动态变化,进一步观 察分别阻断代谢性谷氨酸受体5 (mGluR5)、NMDA受体(NMDA receptor,NMDAR)和阿片μ受体对诱导的胞内钙振荡的影响.结果:谷氨酸、NMDA、吗啡均可明显升高胞内游离钙的浓度([Ca2+]i),而将其相应受体拮抗后,星形胶质细胞[Ca2+]i升高的现象可以被显著抑制.结论:离体培养的星形胶质细胞膜上存在mGluR5、NMDAR和阿片μ受体,这些受体的激活可以升高星影胶质细胞的[Ca2+]i,且这些受体依赖的[Ca2+]i的调控机制可能是星形胶质细胞与神经元交互作用的重要途径之一.     

代谢型谷氨酸受体激动引起星形神经胶质细胞肿胀

用[~3H]-3-氧-甲基-D-葡萄糖摄取的方法测定细胞水含量,观察谷氨酸受体激动剂、拮抗剂对培养的星形神经胶质细胞水含量的影响,并观察细胞内、外钙的作用.结果发现:0.5,1,10 mmol/L的谷氨酸和1mmol/L的trans-ACPD(代谢型谷氨酸受体激动剂)1h均可以引起细胞的水含量增加,1mmol/L的 AMPA(离子型谷氨酸受体激动剂)不影响细胞的水含量,1mmol/L的L-AP3(代谢型谷氨酸受体拮抗剂)可以拮抗1mmol/L谷氨酸和trans-ACPD的作用;撤除细胞外液的钙,谷氨酸不再引起细胞的水含量增加, 20 μmol/ L 的 CdCl₂不能减轻谷氨酸的作用,而300μmol/L的CdCl₂及30μmol/L的胆罗啉(Dantrolene)均可以减轻谷氨酸的作用,提示代谢型谷氨酸受体激动引起星形细胞肿胀,细胞内、外Ca²⁺在谷氨酸引起的星形细胞肿胀中起一定的作用.     

JNK激酶介导mGluR1对细胞凋亡的不同效应

代谢型谷氨酸受体1（mGluR1）可以通过激活多条信号通路促进或抑制细胞凋亡.然而,导致这种生理功能差异的机制尚不明确.本研究选用两种细胞系,即大鼠神经胶质瘤细胞系（C6）和人胚胎肾细胞（HEK293）分别研究内源性和外源转染的mGluR1的激活对细胞凋亡的影响及其调节机制. 结果显示,内源性mGluR1的活化能够激活PI3K/ERK/JNK通路,抑制凋亡试剂STS诱导的细胞凋亡;而外源转染的mGluR1的活化能够分别激活PI3K/ERK和JNK通路,同时促进STS诱导的应激损伤. HEK293细胞中,应用JNK通路抑制剂SP600125,能够部分抑制由mGluR1激活介导的caspase 3的剪切和细胞凋亡;而在C6细胞中阻断JNK通路,则加剧了由mGluR1活化而引起的细胞凋亡. 本文结果提示：mGluR1通过不同信号通路影响细胞凋亡,其中JNK通路可能是调控细胞凋亡的关键途径.本文为受体激活对细胞凋亡能够产生不同的调控作用提供了相应的证据.     

IL-18基因转染对大鼠C6胶质瘤细胞生长特性的影响

探讨IL-18基因转染对大鼠C6胶质瘤细胞生长特性的影响。用MTT法和流式细胞术检测C6／IL-18细胞和C6细胞的增殖特性和细胞周期分布。免疫细胞化学检测C6／IL-18细胞和C6细胞的增殖细胞核抗原(PCNA)、波形蛋白表达。结果显示,与C6细胞相比C6／IL-18细胞的增殖能力降低,G0/G1期细胞增多而G2／M期细胞减少;PCNA、波形蛋白表达降低。研究表明,IL-18基因具有抑制C6胶质瘤细胞增殖、降低其恶性程度的作用。     

甲硫氨酸脑啡肽和抗δ阿片受体抗体对小鼠骨髓瘤细胞信号传递系统的作用

为了探讨阿片肽与细胞表面受体结合后所产生的生物效应及其机制 ,用不同浓度甲硫氨酸脑啡肽 ( MENK)及抗 δ阿片受体单克隆抗体处理小鼠的骨髓瘤细胞 ( NS- 1 ) ,然后测定蛋白激酶A( PKA) ,蛋白激酶 C( PKC)活性及三磷酸肌醇 ( IP3 )含量 .研究结果表明 ,NENK可升高细胞胞浆及胞膜 PKA的活性 ,且这一作用可被抗δ阿片受体抗体所拮抗 .MENK对 PKC影响呈双向反应 ,0 .1 μmol/L MENK可以升高胞浆 PKC活性 ,但却明显降低胞膜 PKC活性 ;在 MENK浓度为 1 0μmol/L时则情况刚好相反 .1 μmol/L的 MENK可明显降低胞浆及胞膜 PKC活性 ,抗体可拮抗这种下调作用 .MENK可降低细胞内 IP3 的含量 ,且这一作用可被抗δ阿片受体抗体所拮抗 .由此可以推论 :MENK在与 δ阿片受体结合后 ,可以经过多种信号传导系统来调节细胞功能 ,从而产生不同的生物效应 .     

镁离子对谷氨酸诱发的海马神经元损伤的保护作用

目的 :探讨镁离子 (Mg2 )在 0 .1mmol/L谷氨酸诱发的海马神经元损伤中的作用。方法 :将神经元从新生SD大鼠海马中分离后培养 6～ 9d ,即随机分成三组 :A .单纯培养基 ;B .培养基 谷氨酸 ;C .培养基 Mg2 ,30min后再加入谷氨酸。结果 :①B组海马神经元存活率与A组相比显著地呈剂量依赖性降低。②与B组对照 ,C组加用低浓度的Mg2 可提高海马神经元的存活率。结论 :低浓度的Mg2 能保护谷氨酸诱发损伤的海马神经元     

MK-801降低鞘内注射强啡肽A(1-17)对福尔马林诱导的大鼠痛反应的增强效应

本实验用福尔马林试验在动物痛模型上观察了鞘内单纯注射生理盐水 (NS)、NMDA受体阻断剂MK 80 1、阿片受体阻断剂纳洛酮 (naloxone)、强啡肽A [DynA (1 17) ]以及先用MK 80 1或纳洛酮再注射DynA (1 17)对动物的行为痛反应的影响。大鼠后肢脚掌皮下注射福尔马林后出现的行为痛反应显示有 2个时相 ,即首先出现持续较短的第一时相和 3～ 6min后出现的持续较长的第二时相。实验结果显示 ,各组的第一时相无明显差异 ;而第二时相则有差异 :鞘内注射DynA (1 17)组第二时相痛反应持续时间 (489 5± 2 2 5s)明显较单纯鞘内注射NS组(3 44 7± 12 9s)、MK 80 1组 (3 3 1 4± 2 0 7s)和纳洛酮组 (3 5 2 5± 18 4s)长 (均为P <0 0 1) ;而先用NMDA受体阻断剂MK 80 1后再注射DynA (1 17) ,则第二时相行为痛反应的持续时间 (2 85 7± 19 4s)较单纯注射DynA (1 17)组明显缩短 (P <0 0 1) ,但与单纯鞘内注射MK 80 1组相比无明显差异 ;先用阿片受体阻断剂纳洛酮后再注射DynA (1 17) ,则动物的第二时相行为痛反应 (473 8± 17 8s)与单纯注射DynA (1 17)组相比无明显差异 ,而与单纯注射NS组或纳洛酮组相比则明显增强 (分别为P <0 0 1)。因此本实验结果提示 :(1)在脊髓水平的DynA(1 17)具有促进福尔马林所诱导的第二     

微流控芯片技术在细胞生物学研究中的应用进展

20世纪90年代以来,微流控芯片技术得到了快速发展。由于具有小型化、集成化、高通量、低消耗、分析快速等特点,微流控芯片作为一种新型的生物学研究平台,能够提供传统方法不具备的精细和可控制的细胞研究条件,在细胞生物学研究领域中得到了广泛关注。该文主要介绍其在细胞培养、分选、裂解、计数、凋亡检测、迁移、单细胞捕获、细胞间作用等方面的研究进展。     

Efficient and Innocuous Live‐Cell Delivery: Making Membrane Barriers Disappear to Enable Cellular Biochemistry

The confluence of protein engineering techniques and delivery protocols are providing new opportunities in cell biology. In particular, techniques that render the membrane of cells transiently permeable make the introduction of nongenetically encodable macromolecular probes into cells possible. This, in turn, can enable the monitoring of intracellular processes in ways that can be both precise and quantitative, ushering an area that one may envision as cellular biochemistry. Herein, the author reviews pioneering examples of such new cell‐based assays, provides evidence that challenges the paradigm that cell penetration is a necessarily damaging and stressful event for cells, and highlights some of the challenges that should be addressed to fully unlock the potential of this nascent field.     

Ultrastructural evidence for two-cell and three-cell neural pathways in the tentacle epidermis of the sea anemone Aiptasia pallida.

Sensory and ganglion cells in the tentacle epidermis of the sea anemone Aiptasia pallida were traced in serial transmission electron micrographs to their synaptic contacts on other cells. Sensory cell synapses were found on spirocytes, muscle cells, and ganglion cells. Ganglion cells, in turn, synapsed on sensory cells, spirocytes, muscle cells, and other neurons and formed en passant axo-axonal synapses. Axonal synapses on nematocytes and gland cells were not traced to their cells of origin, i.e., identified sensory or ganglion cells. Direct synaptic contacts of sensory cells with spirocytes and sensory cells with muscle cells suggest a local two-cell pathway for spirocyst discharge and muscle cell contraction, whereas interjection of a ganglion cell between the sensory and effector cells creates a local three-cell pathway. The network of ganglion cells and their processes allows for a through-conduction system that is interconnected by chemical synapses. Although the sea anemone nervous system is more complex than that of Hydra, it has similar two-cell and three-cell effector pathways that may function in local responses to tentacle contact with food.     

The role of glutamine, serum and energy factors in growth of enterocyte-like cell lines

Background: Glutamine is routinely added to most cell cultures. Glutamine has been found to be the preferential nutrient to the rapidly replicating intestinal mucosa, but whether this is a metabolic effect or due to other properties of this amino acid is not determined. To study the importance of glutamine on the growth of two enterocyte-like cell lines, the effects of depriving the media or supplementing it with glutamine were assessed in media with different serum and energy supplements. Methods: CaCo-2 and HT-29 cells were grown in serum-free medium, with fetal bovine or synthetic serum, and with or without glucose or galactose. The glutamine content was varied between 0 and 4 mM. All growth assays were performed in triplicate by counting in a hemocytometer. Results: Both cell lines were dependent of serum factors for growth, but displayed distinct requirements on glutamine supplementation. Glutamine was an obligate supplement with dose-dependent correlation to growth (r=0.87, p<0.01) for CaCo-2 cells cultured in synthetic, but not in fetal bovine serum. In HT-29 cells, the correlation between glutamine and growth was significant (r=0,68, p<0,05) only in fetal bovine serum in the absence of galactose. Conclusion: This study shows that glutamine has different growth stimulating effects on two enterocyte-like cell lines studied. This could reflect different modes of action of glutamine on proliferation and differentiation in an enterocyte cell population.     

Of mice, frogs and flies: generation of membrane asymmetries in early development

Embryonic development begins with cleavage of the fertilized egg. Cleavage comprises two major processes: cytokinesis and formation of a polarized epithelial cell layer. The focus of this review is comparison of the generation of membrane polarity during embryonic cleavage in three different developmental model systems. In mammalian embryos, as exemplified by analysis of the mouse, generation of distinct membrane domains is uncoupled from cleavage divisions and is initiated in a specific developmental phase, called compaction. In Xenopus laevis embryos, generation of polarized blastomeres occurs simultaneously with cytokinesis. The origin of specific membrane domains of X. laevis polar blastomeres, however, can be traced back to oogenesis. Finally, in Drosophila melanogaster, generation of polarized cells occurs at cellularization. The relevance of cell adhesion, cell junctions and cytocortical scaffolds will be discussed for each of the model systems. Despite enormous morphologic differences, the three models share many common features; in particular, many important molecular interactions are conserved.     

哺乳动物体细胞核移植中供体细胞的研究进展

在哺乳动物体细胞核移植中,供体细胞是影响其效率的主要因素之一。供体细胞的类型、细胞周期、细胞的培养代数、冷藏与冷冻处理,以及供体动物的性别、年龄等都可能影响核移植胚胎的发育。根据现有资料,简要综述了在哺乳动物体细胞核移植中有关供体细胞的研究进展。     

微囊化K562细胞生长周期及代谢特性的研究

以K562细胞为模型,分别进行微囊化和游离培养,运用流式细胞术考察两种培养体系下细胞周期和生长代谢变化;建立数学模型,模拟了两种培养体系下细胞的生长活性和代谢特性。实验发现：微囊化培养过程中的K562细胞处于DNA合成期（S期）的百分含量显著高于游离培养,并且细胞保持较高的增殖活性。模型计算表明,所建模型动力学参数能够很好地描述微囊化和游离两种培养体系下细胞的代谢情况;对细胞活性的理论计算表明,微囊化的细胞具有较高的增殖和代谢活性,同时细胞能够较长时间保持此活性;模型参数表明,两种培养体系下,葡萄糖对细胞生长的影响无显著差别 (k^Free_L≈k^APA_L),乳酸对游离培养细胞的生长具有明显抑制作用,但对微囊化培养细胞抑制作用较小(kFreeL>≈kAPAL)。     

Engineering Cardiac Cell Junctions In Vitro to Study the Intercalated Disc

Abstract

This review article discusses a recent work using engineered cardiac cells to study the function of the intercalated disc putting emphasis on mechanical and electrical coupling.     

Mammalian testis: a target of in vivo electroporation

Mammalian spermatogenesis consists of three biologically significant processes: stem cell self-renewal and differentiation, meiosis, and haploid cell morphogenesis. Understanding the molecular mechanisms behind these processes might provide clues to the puzzle of species preservation and evolution, and to treatments for male infertility. However, few useful in vitro systems exist to investigate these processes at present. To elucidate these mechanisms, in vivo electroporation of the testis might be a convenient option. Since DNA solution can be injected into the seminiferous tubule via the rete testis, similar to germ cell transplantation, it is easy to transfect expression vectors into various differentiated germ cells and supporting Sertoli cells with adequate electric shock. Unfortunately, it is difficult to create transgenic animals using this method because of its low efficiency. However, gain- and loss-of-function assays, promoter assays, and tagged-protein behavior assays can be conducted with this technique, as in in vitro culture systems.     

Perivascular cells for regenerative medicine

Mesenchymal stem/stromal cells (MSC) are currently the best candidate therapeutic cells for regenerative medicine related to osteoarticular, muscular, vascular and inflammatory diseases, although these cells remain heterogeneous and necessitate a better biological characterization. We and others recently described that MSC originate from two types of perivascular cells, namely pericytes and adventitial cells and contain the in situ counterpart of MSC in developing and adult human organs, which can be prospectively purified using well defined cell surface markers. Pericytes encircle endothelial cells of capillaries and microvessels and express the adhesion molecule CD146 and the PDGFRβ, but lack endothelial and haematopoietic markers such as CD34, CD31, vWF (von Willebrand factor), the ligand for Ulex europaeus 1 (UEA1) and CD45 respectively. The proteoglycan NG2 is a pericyte marker exclusively associated with the arterial system. Besides its expression in smooth muscle cells, smooth muscle actin (αSMA) is also detected in subsets of pericytes. Adventitial cells surround the largest vessels and, opposite to pericytes, are not closely associated to endothelial cells. Adventitial cells express CD34 and lack αSMA and all endothelial and haematopoietic cell markers, as for pericytes. Altogether, pericytes and adventitial perivascular cells express in situ and in culture markers of MSC and display capacities to differentiate towards osteogenic, adipogenic and chondrogenic cell lineages. Importantly, adventitial cells can differentiate into pericyte‐like cells under inductive conditions in vitro. Altogether, using purified perivascular cells instead of MSC may bring higher benefits to regenerative medicine, including the possibility, for the first time, to use these cells uncultured.