肿瘤转移中E-钙粘蛋白的调控

E-钙粘蛋白是参与细胞间粘附连接的主要分子,发挥着维持细胞极性和组织结构完整性的功能.肿瘤组织中E-钙粘蛋白介导的细胞间粘附力减弱,使细胞获得浸润性和游走迁移能力.在细胞迁移到新的位置后,E-钙粘蛋白重新表达,有利于肿瘤细胞在继发部位生长增殖,形成新的病灶.E-钙粘蛋白功能调控在肿瘤转移中的作用主要涉及到以下几种机制,编码基因修饰,基因转录抑制及microRNA调节.其中microRNA通过影响E-钙粘蛋白的转录或表达在肿瘤转移过程发挥了重要作用,为肿瘤转移的临床诊断和靶向治疗开辟了新的思路.本文主要就肿瘤转移过程中E-钙粘蛋白的表达变化以及相应调控机制做一综述.     

选择素与肿瘤转移

选择素是已知的细胞粘附分子家族之一,其生理功能是在炎症发生时介导白细胞与血管内皮间的起始粘附.近年来,大量实验证据表明选择素在肿瘤转移的过程中也起重要作用,主要是介导肿瘤细胞与血小板及血管内皮间的起始粘附,另外选择素及其配体也可以作为信号分子促进肿瘤的转移.因此,在将来的临床应用中,选择素及其配体可以作为血清诊断标记监控肿瘤及肿瘤转移的发生;通过抑制选择素与其配体的相互作用,或阻断选择素表达的途径防止肿瘤转移.     

EMT参与肿瘤侵袭转移的研究进展

在癌症类型中,上皮癌占绝大多数。从良性腺瘤过渡到恶性癌和转移期间,上皮肿瘤细胞获得去分化、迁移和入侵行为,同时上皮-间质转化(epithelial-mesenchymal transition EMT)伴随着显著的细胞形态学变化、细胞与细胞间及细胞与基质之间的粘附性丢失及重塑、并获得迁徙和侵袭能力。正如完全分化的上皮细胞转换成低分化、迁移和侵入性间质细胞,其涉及到一个高度的细胞可塑性、大量不同的基因和表观遗传学改变,因此EMT本身是一个多阶段的过程。该综述的目的是系统地总结EMT分子机制及EMT与肿瘤关系的最新进展。     

EMT参与肿瘤侵袭转移的研究进展

在癌症类型中,上皮癌占绝大多数。从良性腺瘤过渡到恶性癌和转移期间,上皮肿瘤细胞获得去分化、迁移和入侵行为,同时上皮-间质转化（epithelial-mesenchymal transition EMT）伴随着显著的细胞形态学变化、细胞与细胞间及细胞与基质之间的粘附性丢失及重塑、并获得迁徙和侵袭能力。正如完全分化的上皮细胞转换成低分化、迁移和侵入性间质细胞,其涉及到一个高度的细胞可塑性、大量不同的基因和表观遗传学改变,因此EMT本身是一个多阶段的过程。该综述的目的是系统地总结EMT分子机制及EMT与肿瘤关系的最新进展。     

Vimentin在肿瘤转移中的作用及药物研究进展

波形蛋白(vimentin)是存在于间充质细胞中的一种中间丝蛋白,近些年研究显示vimentin与肿瘤发生、转移密切相关。波形蛋白调节细胞骨架蛋白、细胞粘附分子等蛋白间的相互作用,参与肿瘤细胞和肿瘤相关内皮细胞、巨噬细胞的粘附、迁移、侵袭和细胞信号转导。其高度动态的聚合解聚间的平衡和其复杂的磷酸化形式可能是vimentin参与肿瘤转移过程及细胞-细胞间相互作用的调节机制。Vimentin在肿瘤中的功能提示,其可能是抗肿瘤转移治疗药物研究的新靶点。     

microRNAs调节肿瘤细胞转移表型的分子机制

microRNAs(miRNAs)是一类在转录后水平调控基因表达的内源性非编码小RNA分子.miRNAs具有癌基因与抑癌基因的功能,参与肿瘤细胞的增殖、粘附、侵袭、转移和肿瘤血管形成等过程.miRNAs可调节肿瘤细胞转移表型,主要通过改变肿瘤细胞黏附力、侵袭力与迁移力.本文重点介绍调节肿瘤细胞转移表型相关miRNAs及其作用的分子机制,以便为肿瘤转移的研究提供新思路.     

小鼠胚胎对人卵巢癌细胞生物学行为影响的体外研究

探讨体外共培养环境中小鼠胚胎对人卵巢癌细胞HO8910PM的影响.通过小鼠胚胎与肿瘤细胞体外共培养模型观察小鼠胚胎对肿瘤细胞的形态及生长行为的影响,Annexin V-EGFP/PI原位检测与小鼠胚胎共培养后肿瘤细胞的凋亡情况,MTT粘附实验、transwell迁移及侵袭实验研究与小鼠胚胎共培养后的人卵巢癌细胞的粘附性、迁移性及侵袭性的变化.共培养时小鼠胚胎能够侵入人卵巢癌细胞并推开肿瘤细胞形成自己的生长空间,激光共聚焦显微镜下见胚胎周围的肿瘤细胞凋亡增加,与对照组比较共培养后的HO8910PM肿瘤细胞的粘附性、迁移性及侵袭性均显著降低(P0.05、P0.01).结果表明体外共培养体系中小鼠胚胎能够侵袭肿瘤细胞,促进人卵巢癌细胞的凋亡,并使其粘附性、迁移及侵袭相关恶性行为降低.     

胞外酸性与肿瘤的浸润转移

组织缺氧是实体瘤的一个主要特征,它引起肿瘤细胞胞外酸性环境的形成.肿瘤细胞通过质子感知的G蛋白偶联受体（G protein-coupled receptors,GPCRs）或质子感知的离子通道感知其胞外的酸性环境,并激活多条细胞内信号通路,影响细胞功能. 肿瘤最致命的方面在于其转移能力,肿瘤转移程度与肿瘤细胞迁移能力呈正相关. 因此,对胞外酸性与肿瘤细胞迁移扩散之间关系的深入研究将有助于发现更多新的抗肿瘤转移药物.本文就肿瘤酸性微环境的形成、肿瘤细胞的质子感知制、胞外酸性环境对肿瘤浸润转移的影响及如何将肿瘤pH调节应用于癌症治疗等方面的内容予以综述.     

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.     

LncRNA RP11-316M1.12在甲状腺乳头状癌中的表达及对细胞侵袭、迁移的影响

目的:探讨长链非编码RNA(LncRNA)RP11-316M1.12在甲状腺乳头状癌(PTC)中的表达及对细胞侵袭、迁移的影响。方法:采用荧光定量PCR(qRT-PCR)法检测42例PTC组织及其相应癌旁组织中LncRNA RP11-316M1.12表达水平。体外培养TPC-1细胞,将TPC-1细胞分为LncRNA RP11-316M1.12-siRNA组(敲低组)、阴性对照组(NC组)、空白对照组(NG组),qRT-PCR法检测各组TPC-1细胞中LncRNA RP11-316M1.12表达水平,CCK-8法检测各组TPC-1细胞增殖能力,Transwell实验检测各组TPC-1细胞迁移、侵袭能力,Western blot法检测各组TPC-1细胞中上皮-间充质转化(EMT)相关蛋白表达水平。结果:与癌旁组织相比,PTC癌组织中LncRNA RP11-316M1.12相对表达量明显升高(P0.05)。与NC组、NG组比较,转染24、48、72 h敲低组TPC-1细胞增殖能力受到抑制(P0.05)。与NC组、NG组比较,敲低组迁移细胞数、侵袭细胞数、间质细胞标志物波形蛋白(vimentin)、N-钙粘附蛋白(N-cadherin)蛋白相对表达量均显著降低(P0.05),上皮细胞标志物E-钙粘附蛋白(E-cadherin)相对表达量显著升高(P0.05)。结论:LncRNA RP11-316M1.12在PTC癌组织中呈高表达,沉默LncRNA RP11-316M1.12可抑制TPC-1细胞增殖、迁移、侵袭能力,其机制可能与PTC肿瘤细胞EMT过程有关。     

Identification of Metastasis-Promoting Sequences in the Mouse Laminin α1 Chain

Laminin-1, a major basement membrane matrix glycoprotein, enhances adhesion, migration, and metastasis of tumor cells. We have screened 208 overlapping synthetic peptides covering the short and long arms of mouse laminin α1 chain for their adhesion activity with B16-F10 mouse melanoma cells. Cell adhesion activity was determined using various amounts of peptides coated on plastic dishes and by measuring cell adhesion on peptide-conjugated Sepharose beads. Nineteen peptides showed B16-F10 cell adhesion activity. Three peptides, designated A-13, -24, and -208, showed the strongest attachment activity in the plate assay, whereas 4 peptides, A-13, -51, -99, and -112, demonstrated the strongest cell adhesion when conjugated to beads. The 19 peptides were tested in vivo for their effect on experimental pulmonary metastasis by B16–F10 cells. Four peptides, A-13, -51, -64, and -119, significantly enhanced metastasis, with A-13 showing the strongest dramatic enhancement. The four metastasis-promoting peptides also stimulated migration of B16-F10 cells in the Boyden chamber assay in vitro with A-13 being the most potent stimulator. In addition, the 4 peptides inhibited laminin-induced cell attachment and migration, which indicates that these four sequences are possible functional B16-F10 cell binding sites in laminin-1. All the four sequences are located on the globular domains of the short arm. Other peptides, including strong adhesion-active peptides, A-24, -99, -112, and a scrambled A-13 peptide, did not stimulate either migration or metastasis. Thus, laminin-1 has multiple active sites in the globular domains of the short arm which promote migration and metastasis of B16-F10 cells.     

P-selectin activates integrin-mediated colon carcinoma cell adhesion to fibronectin

During hematogenous cancer metastasis, tumor cells separate from a primary mass, enter the bloodstream, disperse throughout the body, migrate across vessel walls, and generate distant colonies. The later steps of metastasis superficially resemble leukocyte extravasation, a process initiated by selectin-mediated cell tethering to the blood vessel wall followed by integrin-mediated arrest and transendothelial migration. Some cancer cells express P-selectin ligands and attach to immobilized P-selectin, suggesting that these cells can arrest in blood vessels using sequential selectin- and integrin-mediated adhesion, as do leukocytes. We hypothesize that selectin binding may regulate subsequent integrin-mediated steps in metastasis. Using a model system of cultured Colo 320 human colon adenocarcinoma cells incubated with soluble P-selectin-IgG chimeric protein, we have found that P-selectin can stimulate activation of the alpha(5)beta(1) integrin resulting in a specific increase of adhesion and spreading of these cells on fibronectin substrates. P-selectin binding also induced activation of p38 mitogen-activated protein kinase (p38 MAPK) and phosphatidylinositol 3-kinase (PI3-K). PI3-K inhibitors blocked P-selectin-mediated integrin activation, cell attachment, and cell spreading. Inhibition of p38 MAPK activation blocked cell spreading, but not cell attachment. P-selectin binding also resulted in formation of a signaling complex containing PI3-K and p38 MAPK. These results suggest that P-selectin binding to tumor cells can activate alpha(5)beta(1) integrin via PI3-K and p38 MAPK signaling pathways leading to increased cell adhesion. We propose that P-selectin ligands are important tumor cell signaling molecules that modulate integrin-mediated cell adhesion in the metastatic process.     

Cytoskeletal Actin Structure in Osteosarcoma Cells Determines Metastatic Phenotype via Regulating Cell Stiffness,Migration, and Transmigration

Osteosarcoma is the most common primary malignant bone tumor. The cause of death due to osteosarcoma is typically a consequence of metastasis to the lung. Controlling metastasis leads to improved prognosis for osteosarcoma patients. The cell stiffness of several tumor types is involved in metastatic potential; however, it is unclear whether the metastatic potential of osteosarcoma depends on cell stiffness. In this study, we analyzed the cell stiffness of the low metastatic Dunn cell line and its highly metastatic LM8 subline, and compared actin organization, cell proliferation, and metastasis. Actin cytoskeleton, polymerization, stiffness, and other cellular properties were analyzed. The organization of the actin cytoskeleton was evaluated by staining F-actin with Alexa Fluor 488 phalloidin. Cell stiffness was measured using Atomic Force Microscopy (AFM). Cell proliferation, migration, invasion, and adhesion were also evaluated. All experiments were performed using mouse osteosarcoma cell lines cultured in the absence and presence of cytochalasin. In LM8 cells, actin polymerization was strongly suppressed and actin levels were significantly lower than in Dunn cells. Stiffness evaluation revealed that LM8 cells were significantly softer than Dunn. Young’s modulus images showed more rigid fibrillar structures were present in Dunn cells than in LM8 cells. LM8 cells also exhibited a significantly higher proliferation. The migration and invasion potential were also higher in LM8 cells, whereas the adhesion potential was higher in Dunn cells. The administration of cytochalasin resulted in actin filament fragmentation and decreased actin staining intensity and cell stiffness in both LM8 and Dunn cells. Cells with high metastatic potential exhibited lower actin levels and cell stiffness than cells with low metastatic potential. The metastatic phenotype is highly correlated to actin status and cell stiffness in osteosarcoma cells. These results suggest that evaluation of actin dynamics and cell stiffness is an important quantitative diagnostic parameter for predicting metastatic potential. We believe that these parameters represent new reliable quantitative indicators that can facilitate the development of new drugs against metastasis.     

Caveolin-1 is associated with VCAM-1 dependent adhesion of gastric cancer cells to endothelial cells.

BACKGROUND/AIMS: Cell adhesion molecules play a critical role in the invasion and metastasis of a variety of human tumors. Abnormal expression of VCAM-1 has been demonstrated to correlate with the malignant progression of gastric tumors, but the molecular mechanism underlying the VCAM-1-dependent metastasis has been rarely investigated. To explore the role for tumor cell-expressing adhesion molecules in the carcinoma-endothelium adhesion, we analyzed expression status of adhesion molecules in gastric cancer cells and its association with tumor cell capability of endothelial adhesion. METHODS: Endothelial adhesion ability of gastric tumor cells was tested using calcein AM staining assay. Expression of cell surface proteins was determined by Western blot, flow cytometry, and immunofluorescence assays. RNAi-mediated knockdown of gene expression and neutralization with specific antibodies were utilized for functional analysis. RESULTS: One of three cell lines tested was identified to be adhesive to endothelial cells and express VCAM-1. Adherence ability of the cells was dramatically decreased by neutralization of surface VCAM-1. VCAM-1 was co-localized with Caveolin-1 and siRNA-mediated knockdown of Caveolin-1 expression significantly blocked the VCAM-1-dependent cell adhesion. CONCLUSIONS: Our data imply important roles for VCAM-1 and Caveolin- 1 in the regulation of metastatic potential of gastric tumor cells.     

Inhibition of hyaluronan export attenuates cell migration and metastasis of human melanoma

When secreted from malignant cells, hyaluronan facilitates tumor invasion and metastasis, as inhibition of its export by zaprinast inhibited metastasis formation in mice. However, the precise steps of the metastatic cascade, which were influenced by zaprinast, have not been identified as yet. Here we analyzed the cell biological effects of the inhibitor on three human melanoma cell lines that differed in their hyaluronan production and their metastatic capability when xenografted into SCID mice. We measured the influence of zaprinast on cellular hyaluronan export, surface coat formation, proliferation, random migration, colony formation in soft agar, adhesion, and transepithelial resistance. Concentrations of zaprinast not affecting cell proliferation, adhesion and transepithelial resistance, nevertheless reduced hyaluronan export by 50%, surface coat formation, random migration, and colony formation in soft agar. These results indicate that hyaluronan enhances metastasis formation primarily in those steps of the metastatic cascade, which involves tumor cell migration.     

Marine algal fucoxanthin inhibits the metastatic potential of cancer cells

Metastasis is major cause of malignant cancer-associated mortality. Fucoxanthin has effect on various pharmacological activities including anti-cancer activity. However, the inhibitory effect of fucoxanthin on cancer metastasis remains unclear. Here, we show that fucoxanthin isolated from brown alga Saccharina japonica has anti-metastatic activity. To check anti-metastatic properties of fucoxanthin, in vitro models including assays for invasion, migration, actin fiber organization and cancer cell–endothelial cell interaction were used. Fucoxanthin inhibited the expression and secretion of MMP-9 which plays a critical role in tumor invasion and migration, and also suppressed invasion of highly metastatic B16-F10 melanoma cells as evidenced by transwell invasion assay. In addition, fucoxanthin diminished the expressions of the cell surface glycoprotein CD44 and CXC chemokine receptor-4 (CXCR4) which play roles in migration, invasion and cancer–endothelial cell adhesion. Fucoxanthin markedly suppressed cell migration in wound healing assay and inhibited actin fiber formation. The adhesion of B16-F10 melanoma cells to the endothelial cells was significantly inhibited by fucoxanthin. Moreover, in experimental lung metastasis in vivo assay, fucoxanthin resulted in significant reduction of tumor nodules. Taken together, we demonstrate, for the first time, that fucoxanthin suppresses metastasis of highly metastatic B16-F10 melanoma cells in vitro and in vivo.     

The mechanism of axon growth

Cell adhesion molecules (CAMs) are not just an inert glue that mediates static cell-cell and cell-extracellular matrix (ECM) adhesion; instead, their adhesivity is dynamically controlled to enable a cell to migrate through complex environmental situations. Furthermore, cell migration requires distinct levels of CAM adhesivity in various subcellular regions. Recent studies on L1, a CAM in the immunoglobulin superfamily, demonstrate that cell adhesion can be spatially regulated by the polarized internalization and recycling of CAMs. This article examines the molecular mechanism of axon growth, with a particular focus on the role of L1 trafficking in the polarized adhesion and migration of neuronal growth cones.     

转染人核糖核酸酶抑制因子基因对B16黑色瘤细胞及肿瘤转移的影响(英)

人核糖核酸酶抑制因子(human ribonuclease inhibitor, RI)是一种细胞质中分子质量为50 ku的酸性糖蛋白.RI能抑制核糖核酸酶A（RNase A）的活性, RNase A与血管生成因子（angiogenin,Ang）的氨基酸有着高度保守的同源序列.Ang是RNase A超家族的一员,RI通过与RNase A和Ang的紧密结合而抑制其活性.血管生成及新血管的形成, 是肿瘤发生和转移的必要条件.所以抗血管生成将是一种很有希望的对抑制肿瘤生长和转移的有效方法.实验显示RI能有效地抑制肿瘤诱导血管的生成.RI由含有许多亮氨酸重复序列的多肽组成.含有这样重复序列的100多种蛋白质显示了广泛的功能,包括细胞周期调节,DNA修复,对细胞外基质相互作用以及抑制酶活性等.RI被认为是胚胎发育,创伤愈合及肿瘤发生中新血管形成的一种调节因子.RI定位于染色体的11p15.5,与ras基因邻近,在肿瘤病人中经常存在染色体11p15.5部位的变异和异常.RI可能与细胞的生长和分化有关, 因此,RI 可能还具有尚未知的生物学作用.为了进一步了解RI的潜在功能以及探讨RI与肿瘤浸润、转移的关系, 将人的核糖核酸酶抑制因子基因的cDNA通过逆转录包装细胞PA317,并转染到B16小鼠黑色瘤细胞中, 用转染空载体和未转染的B16细胞作为对照.通过PCR, RT-PCR, 蛋白质免疫印迹, 免疫荧光分析鉴定,获得稳定表达人核糖核酸酶抑制因子的细胞株.结果显示, 转染的RI基因在体外能显著地抑制细胞增殖和细胞迁移,增加了细胞的粘附以及改善细胞的恶性形态,B16,B16 pLNCX,B16 pLNCX-RI 3种细胞的倍增时间分别为(24.98±0.16) h, (25.62±0.28) h, (32.64±1.11) h.与对照组相比,转RI的细胞粘附率增加17.8%和19.5%而迁移降低了61.4%和60%.转RI的细胞比对照组细胞较平展,核仁和分裂相较少,胞质嗜碱性减弱,提示细胞增殖活性降低和恶性表型的改善. 将3种B16细胞静脉注射到C57BL/6小鼠中, 结果表明, 转染RI基因的实验组显著地抑制了肿瘤的转移, 与两个对照组相比,荷瘤小鼠有更长的存活时间, 少得多的转移节结, 更低的肿瘤血管密度和肺重量.结果显示,RI的表达可能与黑色瘤的转移有关, 提示RI能显著地抑制肿瘤的转移,可能由于其与抑制血管作用,增加细胞粘附,降低细胞迁移及增殖有关.     

Role of cell surface oligosaccharides of mouse mammary tumor cell lines in cancer metastasis

Malignant transformation is associated with changes in the glycosylation of cell surface proteins and lipids. In tumor cells, alterations in cellular glycosylation may play a key role in their metastatic behaviour. In the present study, we have assessed the relationship between cell surface oligosaccharides and the metastasis ability of mouse mammary tumor cell lines 67NR and 4TO7. The cell surface oligosaccharides have been analyzed using specific binding assays with some plant lectins and the metastasis ability has been studied using transwell migration and invasion assays. In addition, we investigated the role of terminal sialic acids in the metastatic potential (cell adhesion on fibronectin, cell migration and invasion) in the 4TO7 cells on treatment with neuraminidase. The cell lines used in study have different metastasis abilities in vivo - the 67NR form primary tumors, but no tumor cells are detectable in any distant tissues, while cells of the 4TO7 line are able to spread to lung. In vitro metastasis experiments have revealed higher ability of adhesion, cell migration and invasion in the 4TO7 cells than the 67NR cells. Specific lectins binding assays show that the 4TO7 cells expressed more high-mannose type, multi-antennary complex-type N-glycans, beta-1,6-GlcNAc-branching, alpha-2,6-linked sialic acids, N-acetylgalactosamine and galactosyl(beta-1,3)-N-acetylgalactosamine. Removal of sialic acids on treatment with neuraminidase decreases adhesion, but increases the migration and has shown no significant change in the invasion ability of the 4TO7 cells. The study suggests that the sialic acids are not crucial for the cell migration and invasion in the 4TO7 cells. The findings provide the new insights in understanding the role of cell surface oligosaccharides in cancer metastasis.     

An in vitro correlation of mechanical forces and metastatic capacity

Mechanical forces have a major influence on cell migration and are predicted to significantly impact cancer metastasis, yet this idea is currently poorly defined. In this study we have asked if changes in traction stress and migratory properties correlate with the metastatic progression of tumor cells. For this purpose, four murine breast cancer cell lines derived from the same primary tumor, but possessing increasing metastatic capacity, were tested for adhesion strength, traction stress, focal adhesion organization and for differential migration rates in two-dimensional and three-dimensional environments. Using traction force microscopy (TFM), we were surprised to find an inverse relationship between traction stress and metastatic capacity, such that force production decreased as the metastatic capacity increased. Consistent with this observation, adhesion strength exhibited an identical profile to the traction data. A count of adhesions indicated a general reduction in the number as metastatic capacity increased but no difference in the maturation as determined by the ratio of nascent to mature adhesions. These changes correlated well with a reduction in active beta-1 integrin with increasing metastatic ability. Finally, in two dimensions, wound healing, migration and persistence were relatively low in the entire panel, maintaining a downward trend with increasing metastatic capacity. Why metastatic cells would migrate so poorly prompted us to ask if the loss of adhesive parameters in the most metastatic cells indicated a switch to a less adhesive mode of migration that would only be detected in a three-dimensional environment. Indeed, in three-dimensional migration assays, the most metastatic cells now showed the greatest linear speed. We conclude that traction stress, adhesion strength and rate of migration do indeed change as tumor cells progress in metastatic capacity and do so in a dimension-sensitive manner.