人脐带干细胞来源的外泌体促进体外培养雪旺细胞迁移的研究

目的:外泌体是活细胞分泌的来源于多囊泡体的膜性囊泡,其主要作用包括携带与运输。雪旺细胞是周围神经再生中非常优秀的种子细胞,但其迁移能力较差,影响修复效果。本文旨在探讨外泌体和雪旺细胞共培养是否可以促进雪旺细胞迁移。方法:本实验通过分离纯化人脐带干细胞外泌体和大鼠坐骨神经雪旺细胞并鉴定,随后将其共培养于Transwell小室观察雪旺细胞迁移率。结果:通过人脐带干细胞超高速离心法得到的外泌体高表达干细胞标志物CD44(92.2±3.6%)、CD73(99.1±0.6%),并且低表达单核细胞表面抗原CD14(0.5±0.06%)以及造血干细胞表面抗原CD34(0.4±0.07%),外泌体鉴定高表达CD81和CD9;雪旺细胞培养鉴定纯度达(92.3±2.7)%;均符合实验要求。通过Transwell小室实验发现外泌体可以明显促进雪旺细胞的迁移,并且具有一定剂量关系。结论:外泌体可以提高雪旺细胞的迁移能力,从而使雪旺细胞在组织工程领域中的应用产生巨大突破。     

大鼠脂肪干细胞向雪旺细胞诱导分化能力的研究

目的：研究脂肪干细胞（ADSCs）向雪旺细胞的诱导分化,为神经组织工程提供新的种子细胞。方法：取SD大鼠项背处的皮下脂肪,分离出脂肪干细胞并培养传代,流式细胞仪检测细胞表面特异标记CD29,CD34,CD44,CD45,CD90,以评价干细胞的生物学特性;采用b-FGF和forskolin等诱导脂肪干细胞向雪旺细胞分化,光镜观察诱导后细胞形态的变化;免疫荧光染色鉴定雪旺细胞特异性标记物S100、P75和GFAP的表达;PCR检测诱导前后雪旺细胞特异性标记物S100、P75的表达。结果：分离培养的鼠脂肪干细胞CD29、CB90表达呈阳性,而CD34、CD44和CD45表达呈阴性,具有脂肪干细胞的生物学特性;脂肪干细胞经过胶质细胞生长因子的作用,光镜下发现诱导的细胞形态与雪旺细胞相似;免疫荧光染色S100、P75和GFAP阳性;RT-PCR结果显示诱导的雪旺细胞标记物S100和P75表达上调。结论：脂肪干细胞可诱导分化成雪旺细胞,其表型和分子特征与雪旺细胞相似,诱导分化的脂肪干细胞是一种理想的神经组织工程的种子细胞。     

肿瘤细胞迁移特性及细胞迁移能力表征

细胞运动特征及其变化主要受细胞自身状况和微环境二方面的影响,细胞适应不同环境的运动响应方式存在差异,在二维培养基质上细胞迁移方式主要分为个体迁移和群体迁移,而在三维培养基质中其迁移模式主要为间充质迁移和阿米巴迁移.肿瘤细胞因其结构功能状况异常,在上述环境中的迁移特征出现不同程度的异化,其主要倾向为顽固、无目的和侵袭性的迁移运动.对细胞的迁移能力进行量化表征,有助于对细胞迁移本质的进一步认识.根据细胞培养环境的不同,分别介绍了二维和三维培养基质上细胞的不同迁移模式及肿瘤细胞的迁移运动特征,以及测量细胞迁移能力的体外测试手段和方法,并分析总结了这些方法的优缺点.     

细胞内F-actin的聚合与解聚对肝癌Bel-7402细胞的影响

目的：为探讨癌细胞内F—actin的解聚与聚合对癌细胞的形态、迁移、侵入的影响。方法：利用激光共聚焦显微镜对贴附培养的人肝癌：Bel-7402细胞形态及其细胞内F-actin进行观察;使用流式细胞仪对贴附的Bel一7402细胞及其脱落细胞与Cyt—B处理后Bel-7402细胞内F-actin的含量进行分析。结果：Bel-7402细胞在培养的过程中,癌细胞形态伸展,出现侵入性生长,细胞内F-actin聚合形成粗大的贯通细胞内的F-actin束,F-acfin含量增高;癌细胞在生长过程中,常出现重叠生长,细胞变圆,F_actin解聚变短,F-acfin小体增高,细胞有脱落的趋势,其脱落细胞内的F-actin含量低于贴附细胞。结论：人肝癌：Bel-7402细胞内F-actin的聚合可增加癌细胞的贴附和侵入性：细胞内F-actin的解聚,及Gactin重新聚合形成F-aefin小体可影响到癌细胞脱落及迁移。     

脂肪干细胞上清液培养雪旺细胞的实验研究

目的:研究应用脂肪干细胞上清液培养新生小鼠雪旺细胞的可行性。方法:取新生(出生5-7天)C57BL/6小鼠的坐骨神经,采用0.2%的复合胶原酶NB4消化法分离获取细胞,然后应用雪旺细胞条件培养基(SCCM)和C57BL/6小鼠的脂肪干细胞上清液(ADSC-CM)分别培养雪旺细胞。用0.2%复合胶原酶NB4差速分离纯化这两种方法培养的雪旺细胞,每48 h纯化1次,共进行2次纯化。应用P75免疫荧光染色方法鉴别两组P2代雪旺细胞并比较两组雪旺细胞的纯度和生长情况。结果:脂肪干细胞上清液培养的雪旺细胞纯化两次后,数量明显增多,其纯度与雪旺细胞条件培养基相比没有明显差异(P0.05)。结论:脂肪干细胞上清液可以较好的培养雪旺细胞,可以作为一种新的廉价方便的培养基代替雪旺细胞条件培养基来培养许雪旺细胞。     

cAMP介导血清引起的嗅鞘细胞形态变化

嗅鞘细胞是一类兼有星形胶质细胞和雪旺细胞特性的胶质细胞。培养的嗅鞘细胞存在两种能相互转化的形态亚型,然而转化的分子机制并不清楚。本研究旨在建立一种研究离体培养嗅鞘细胞形态转化的方法,基于该方法研究其相互转化的机制。采用原代培养大鼠嗅鞘细胞和免疫细胞化学技术,观察在有、无血清培养或给予双丁酰-环核苷酸(dB-cAMP)药物条件下嗅鞘细胞形态,并统计雪旺样和星形样嗅鞘细胞亚型的比例。结果显示:(1)在无血清培养条件下,(95.2±3.7)%嗅鞘细胞呈雪旺样形态,(4.8±3.7)%呈星形样形态;而在10%血清培养条件下,(42.5±10.4)%嗅鞘细胞呈雪旺样形态,(57.5±10.4)%呈星形样形态,随后换回无血清条件下培养24h,(94.8±5.0)%嗅鞘细胞呈雪旺样形态,(5.2±5.0)%呈星形样形态。(2)有无血清的培养条件并不影响嗅鞘细胞标记物p-75和S-100的表达。(3)在正常(10%)血清培养情况下,cAMP类似物dB-cAMP抑制F肌动蛋白应力纤维(F-actin stress fibers)和黏着斑(focal adhesion)形成,抑制血清引起的嗅鞘细胞形态变化,雪旺样细胞比例增加,并...     

外加直流电场对血管平滑肌细胞形态及迁移行为的影响

在外加直流电场(electricalfields,EFs)作用下血管平滑肌细胞(VSMCs)膜表面细胞生长因子受体表达发生明显的变化,并影响细胞形态、迁移的特性。通过EFs干预装置干预体外培养的大鼠主动脉VSMCs,记录和分析细胞图像,研究不同强度电场、不同作用时间下VSMCs迁移和细胞形态的变化,并用免疫细胞化学或免疫荧光染色方法检测与VSMCs迁移相关的血小板衍化生长因子受体(PDGFR)、血管紧张素II1型受体(AT1R)和2型受体(AT2R)等受体的表达情况,研究EFs影响VSMCs形态及迁移的机制。研究结果提示,在EFs干预作用下,VSMCs膜PDGFR表达增加,部分细胞呈不对称分布,在EFs阴极面较集中;细胞中AT1R表达亦增加,但无明显不对称分布现象;AT2R表达没有改变;EFs长时间作用下,培养的VSMCs有明显的电场趋化性,细胞向阴极迁移的距离明显高于无EFs作用对照组,细胞膜向阴极方向伸展,发生形状改变,定向迁移依赖于EFs强度。EFs作用下,部分细胞生长因子受体的表达上调和重分布,可能与细胞定向迁移的启动和维持有关。     

江浙蝮蛇毒精氨酸酯酶Agkihpin的研究Ⅱ.对鼻咽癌细胞活力、增殖、迁移和细胞形态的影响

目的：将江浙蝮蛇粗毒中新分离纯化的一种精氨酸酯酶Agkihpin应用于鼻咽癌细胞LXC的体外培养,观察Agkihpin对鼻咽癌细胞活力、增殖、迁移和细胞形态的影响,以期探索治疗鼻咽癌的新方法、新药物。方法：将不同剂量的Agkihpin加入细胞培养液中,用四甲基偶氮唑（MTT）法分析细胞活力,细胞计数法观察和分析细胞增殖和细胞迁移。结果：一定剂量的Agkihpin可抑制LXC的细胞活力、增殖、迁移,并可改变细胞形态和杀伤LXC,且剂量越大抑制、杀伤和细胞形态改变越明显。结论：Agkihpin对鼻咽癌的治疗具有潜在的重要意义,Agkihpin具有作为抗鼻咽癌新药物的开发潜力。     

人脐带间充质干细胞条件培养基联合白藜芦醇对人滋养层细胞的作用

目的:探讨人脐带间充质干细胞条件培养基联合白藜芦醇对人绒毛膜外滋养层细胞凋亡的影响。方法:通过CCK8细胞活力检测试剂盒测定白藜芦醇及其与人脐带间充质干细胞条件培养基共同处理人绒毛膜外滋养层细胞HTR8后对细胞增殖及活性的影响;细胞迁移试验检测白藜芦醇和人脐带间充质干细胞条件培养基对细胞迁移能力的影响;显微镜观察细胞形态,并用流式细胞仪检测细胞凋亡率的变化;Western blot检测白藜芦醇和人脐带间充质干细胞条件培养基对细胞凋亡相关蛋白Bax、Bcl-2以及迁移相关蛋白MMP-9表达的影响。结果:白藜芦醇能够抑制HTR8细胞增殖,抑制细胞迁移及MMP-9蛋白的表达,改变Bax和Bcl-2蛋白表达诱导细胞凋亡的作用。而人脐带间充质干细胞条件培养基能够逆转白藜芦醇对细胞的抑制作用。结论:人脐带间充质干细胞条件培养基能够通过调控Bax、Bcl-2、MMP-9的蛋白表达逆转白藜芦醇对人绒毛膜外滋养层细胞的抑制作用。人脐带间充质干细胞条件培养基可作为潜在的治疗人绒毛膜外滋养层细胞功能障碍的临床手段,孕妇需要小心使用白藜芦醇。     

黄芩甙对人肝癌BEL-7402细胞增殖和侵袭转移的影响及机制

目的探讨黄芩甙对人肝癌BEL-7402细胞系增殖、侵袭转移的影响及其机制。方法应用细胞培养技术培养人肝癌BEL-7402细胞,MTT实验、软琼脂克隆形成实验检测黄芩甙对肝癌细胞增殖的影响。通过Boyaen小室模型测定其侵袭力,细胞迁移实验测定细胞运动能力,同时观察细胞形态。流式细胞术测定肝癌细胞MMP2、TIMP2表达,免疫组化测定VEGF表达。结果黄芩甙能明显抑制肝癌细胞增殖,细胞侵袭力及运动能力明显下降,且呈量效关系（P〈0．05）。形态学观察发现,黄芩甙处理组细胞形态较圆,伪足数目较少;MMP2阳性表达细胞减少,TIMP2阳性表达细胞增多,MMP2／TIMP2比值下降;VEGF表达减少。结论黄芩甙能抑制肝癌BEL-7402增殖、侵袭与转移,其机制可能与直接抑制细胞迁移运动,抑制细胞基质溶解相关基因蛋白MMP2表达,促进TIMP2表达;VEGF表达减少有关。     

高糖通过Nox4型NADPH氧化酶影响施旺细胞凋亡的机制研究

目的:探讨高糖通过Nox4型NADPH氧化酶影响施旺细胞凋亡的机制。方法:提取Wistar大鼠新生鼠的施旺细胞体外培养。分为对照组、高糖组、NOX4 siRNA组及对照siRNA组(n=10)。采用WST-1法检测细胞活力,DCFH-DA法检测细胞内活性氧自由基(ROS)含量,荧光实时定量RT-PCR检测Nox4和Caspase3 mRNA表达,蛋白印迹法检测Nox4和Caspase3蛋白表达。结果:高糖培养上调施旺细胞Nox4 mRNA及蛋白表达,降低施旺细胞活性,增加细胞内ROS含量,通过增加Caspase3 mRNA及蛋白表达促进细胞凋亡。NOX4 siRNA通过抑制Nox4基因表达,阻止高糖培养的施旺细胞内ROS蓄积,降低高糖对施旺细胞的活性损害,通过下调Caspase3 mRNA及蛋白表达减少细胞凋亡。结论:Nox4参与高糖引起的施旺细胞凋亡,针对Nox4表达或功能的调控方式可能成为治疗糖尿病周围神经病变的新途径。     

Slow pulsatile movements of Schwann cells in vitro: a time-lapse cinemicrographic study

Slow pulsatile movements of Schwann cells in vitro were studied quantitatively by using time-lapse cinemicrography. Schwann cells from peripheral nerves of 3-day-old rats were cultured in serum-free medium. Most Schwann cells showed intermittent episodes of pulsatile movement; each episode consisted of one or several contractile pulses. About half of the episodes consisted of a single pulse, and episodes with more than four pulses were rare. The average episode of activity lasted 2.6 min, while the average duration of a single pulse was 1.5 min. The mean quiescent interval between episodes of activity was 3.7 min. Some cells showed no pulsatile activity. Active cells averaged 6.6 episodes/h. The fraction of time which a Schwann cell spent in pulsatile activity varied widely, with an average of 28%. Behavior of Schwann cells in HEPES-buffered Hanks saline was generally similar to that in the complete medium. Raising K+ to 40 mM or Ca++ to 10 mM did not markedly affect the time course of the pulsatile motility, although the contractions were more vigorous in the high Ca++. Pulsatile movement was reversibly inhibited by cytochalasin B and appeared to be potentiated by drugs that disrupt microtubules.     

低温保存许旺细胞对周围神经再生的作用

目的：比较原代培养许旺细胞（Schwann cells,SCs)和冷冻保存的SCs移植对损伤后坐骨神经再生的作用。方法：原代培养和液氮保存的SCs分别移植到桥接缺损坐骨神经的硅胶管内。在移植后不同时间（第6和8周末）,硅胶管远端神经干内注射HRP,逆行追踪背根神经节和脊髓前角的标记神经元数量;测量再生神经纤维的复合动作电位传导速度;电镜观察再生神经纤维的髓鞘形成。结果：原代培养和冷冻保存SCs在移植后不同时间其背根神经节和脊髓前角神经元HRP标记细胞数量、再生神经纤维的复合动作电位传导速度基本一致,再生神经纤维髓鞘的形成未见明显差别。结论：冷冻保存的SCs仍具有促进损伤后周围神经再生的能力。     

Schwann cell myelination: induction by exogenous basement membrane-like extracellular matrix

Exposing rat Schwann cells co-cultured with nerve cells to a reconstituted basement membrane induced the formation of myelin segments by Schwann cells. This occurred in a serum-free culture medium in which, in the absence of this matrix, Schwann cells proliferate but fail to differentiate. This reconstituted basement membrane was prepared from solubilized extracellular matrix proteins synthesized by a basement membrane-producing murine tumor. The major constituents of this reconstituted matrix are collagen type IV, laminin, heparan sulfate proteoglycan, entactin, and nidogen. The matrix also elicited striking morphological changes in Schwann cells, inducing them to spread longitudinally along the nerve fibers (a necessary early step in the process of ensheathment of nerve fibers). Several observations indicated that the effect of the matrix was exerted directly on Schwann cells and not indirectly through an effect on nerve cells. First, the matrix-induced cell spreading occurred only in areas in which Schwann cells directly contacted the matrix; Schwann cells that were associated with the same nerve fibers but that did not themselves directly contact the matrix did not exhibit spreading. Second, the matrix-induced alteration in Schwann cell morphology was observed in cultures in which the nerve cells were removed. These results provide direct evidence that basement membrane contact induces normal Schwann cell differentiation, and support the idea that Schwann cell differentiation in vivo may be regulated by the appearance of the basement membrane, which normally envelops terminally differentiating Schwann cells.     

Factors influencing the release of proteins by cultured schwann cells

Cultured rat schwann cells grown in association with sensory neurons when labeled with [(3)H]leucinem, [(3)H]glucosamine, or [(35)S]methionine release labeled polypeptides into the culture medium. Analysis by SDS-polyacrylamide gel electrophoresis (SDS-PAGE) of the culture medium reveals a reproducible pattern of more than 20 polypeptides with molecular weights ranging from 15,000 to more than 250,000. Five major polypeptides (apparent molecular weights 225,000, 210,000, 90,000, 66,000, 50,000, and 40,000) account for approximately 40 percent of the leucine or methionine radioactivity in medium polypeptide. Schwann cells grown in a serum-free defined medium, in which schwann cells do not relate normally to axons, release approximately four times less labeled medium polypeptides tha cultures grown in medium supplemented with serum and chick embryo extract. In addition, there is a qualitative difference in the pattern of medium polypeptides resolved by SDS-PAGE, so that a single polypeptide (mol wt 40,000) accounts for nearly all of the label in medium polypeptides. Switching of cultures grown in defined medium to supplemented medium for 2 d results in a fourfold increase in the amount of labeled polypeptides appearing in the culture medium, and a return to the normal pattern of medium polypeptides appearing in the culture medium, and a return to the normal pattern of medium polypeptides as resolved by SDS-PAGE. This change in the pattern of polypeptides release by schwann cells is accompanied by changes in the association between schwann cells and axons. An early step in the establishment of normal axon-schwann cell relations appears to be an inward migration of schwann cells into axonal bundles and spreading of schwann cells along neurites. These changes are evident within 48 h after medium shift. Our results thus suggest that the release of proteins by schwann cells may be important for the development of normal axonal ensheathment.     

Tissue engineering of peripheral nerves: A comparison of venous and acellular muscle grafts with cultured Schwann cells

Bioengineering is considered to be the laboratory-based alternative to human autografts and allografts. It ought to provide "custom-made organs" cultured from patient's material. Venous grafts and acellular muscle grafts support axonal regeneration only to a certain extent because of the lack of viable Schwann cells in the graft. We created a biologic nerve graft in the rat sciatic nerve model by implanting cultured Schwann cells into veins and acellular gracilis muscles, respectively. Autologous nerve grafts and veins and acellular muscle grafts without Schwann cells served as controls. After 6 and 12 weeks, regeneration was assessed clinically, histologically, and morphometrically. The polymerase chain reaction analvsis showed that the implanted Schwann cells remained within all the grafts. The best regeneration was seen in the control; after 12 weeks the number of axons was increased significantly compared with the other grafts. A good regeneration was noted in the muscle-Schwann cell group, whereas regeneration in both of the venous grafts and the muscle grafts without Schwann cells was impaired. The muscle-Schwann cell graft showed a systematic and organized regeneration including a proper orientation of regenerated fibers. The venous grafts with Schwann cells showed less fibrous tissue and disorganization than the veins without Schwann cells, but failed to show an excellent regeneration. This might be attributed to the lack of endoneural-tube-like components serving as scaffold for the sprouting axon. Although the conventional nerve graft remains the gold standard, the implantation of Schwann cells into an acellular muscle provides a biologic graft with basal lamina tubes as pathways for regenerating axons and the positive effects of Schwann cells producing neurotrophic and neurotropic factors, and thus, supporting axonal regeneration.     

Substratum attachment of embryonic mesoderm cells in culture

The cell-substratum adhesive characteristics of cultured chick embryo primary mesoderm cells have been examined by interference reflection microscopy and transmission electron microscopy under various conditions. Correlations were drawn between the type of adhesion and the degree of motility shown by the cells. During the rapid spreading and motility of cells cultured on fibronectin-containing substrata, focal contacts (10 to 15-nm gap) were rare and close contacts (about 30-nm gap) were predominant. By contrast, when the cells were immobile, after 5 d in culture, extensive focal contacts were present, together with stress fibers. The results indicate that tight cell-substratum contact is incompatible with rapid cell motility and that fibronectin acts by inducing the formation of close contacts rather than focal contacts.     

Substratum attachment of embryonic mesoderm cells in culture

Summary The cell-substratum adhesive characteristics of cultured chick embryo primary mesoderm cells have been examined by inteference reflection microscopy and transmission electron microscoy under various conditions. Correlations were drawn between the type of adhesion and the degree of motility shown by the cells. During the rapid spreading and motility of cells cultured on fibronectin-containing substrate, focal contacts (10 to 15-nm gap) were rare and close contacts (about 30-nm gap) were pedominant. By contrast, when the cells were immobile, after 5 d in cultue, extensive focal contacts were present, together with stress fibers. The results indicate that tight cell-substratum contact is incompatible with rapid cell motility and that fibronectin acts by inducing the formation of close contacts rather than focal contacts. This work was supported by grants from the Medical Research Council of Canada and the Alberta Heritage Foundation for Medical Research.     

Expression of E-cadherin-catenin complex in human benign schwannomas

The Ca2+-dependent cell adhesion molecule E-cadherin has been known to express in normal and reactive Schwann cells in rodents, and to play an important role in Schwann cell-Schwann cell adhesion and maintenance of peripheral nervous tissue architecture. However, little is known about expression of E-cadherin in schwannomas. The aim of the present study was to investigate the cellular expression and localization of E-cadherin, and its associated protein, alpha E-, alpha N- and beta-catenins in human schwannomas, which are supposed to derive from Schwann cells. We tested the hypothesis that these proteins might show an altered expression/distribution in schwannoma cells which correlates with their neoplastic behavior, including sparse cell-cell contact, as seen those in meningiomas and various carcinomas. In human schwannomas, however, E-cadherin, alpha E-catenin, and beta-catenin were detected by western blotting and immunohistochemistry, whereas alpha N-catenin was not. Immunoprecipitation using anti-E-cadherin antibody resulted in alpha E-catenin forming a complex with E-cadherin. SSCP analysis revealed no mutations in the transmembrane domain or in intracellular catenin-binding site of E-cadherin. These data suggest that the E-cadherin-alpha E-catenin complex is well preserved in human schwannoma cells, which is compatible with its benign behavior, and these molecules might be used as additional cell markers of Schwann cell-derived tumors.