细胞表面糖链末端唾液酸和岩藻糖与某些细胞生物学行为的关系

用神经氨酸酶和a-L-岩藻糖苷酶分别切除人肝癌细胞株7721细胞表面糖链中的末端唾液酸(SA)和岩藻糖(Fuc)残基来研究表面聚糖结构和某些细胞生物学行为之间的关系.选择细胞对纤连蛋白(Fn)、层黏蛋白(Ln)和人脐静脉内皮细胞(HUVEC)的黏附能力、细胞趋化性迁移以及趋化性侵袭作为细胞行为的指标.结果表明表面糖链末端SA对细胞黏附至Fn并不必需,对细胞黏附至Ln和细胞的趋化性侵袭却至为重要,而对细胞黏附至HUVEC以及趋化性迁移则为关键性残基.与SA相比,Fuc可能参与细胞Fn、Ln和HUVEC的黏附,但对趋化性迁移以及趋化性侵袭并不重要.细胞对HUVEC的黏附以及趋化性迁移和侵袭可被唾液酸化Lewis X(SLex)的单抗抑制,但不被未唾液酸化的Lewis X(Lex)单抗抑制,这一结果支持SA在上述三种细胞过程中较Fuc残基重要.     

人NK细胞对猪/人血管内皮细胞的差异粘附

采用^51Cr标记法和^3H-TdR摄入法研究了人外周血NK细胞（PBNK）和人NK细胞系－－NK92对猪主动脉内皮细胞（PAEC）和人脐静脉内皮细胞（HUVEC）的粘附作用。结果表明,NK92和PBNK对PAEC的粘附率显著高于对HUVEC的粘附率;rhTNF－α预刺激PAEC／HUVEC后,PBNK的粘附率呈现TNF－α剂量依赖性的增高;rhIFN－γ预刺激NK92／PBNK后,两者对PAEC粘附率的增幅均高于对HUVEC的增幅;CD11a（LFA－1）单抗可以以不同程度地抑制PBNK对静息和TNF－α激活的PAEC的粘附作用。这些结果显示,NK细胞在细胞介导的异种移植排斥反应中起重要作用。     

基于AFM单细胞力谱技术的淋巴瘤细胞黏附力测量

细胞黏附在细胞生理功能中起着重要的调控作用,对细胞黏附行为进行定量研究有助于理解生命活动内在机制.原子力显微镜（AFM）的出现为研究溶液环境下微纳尺度生物系统的生物物理特性提供了强大工具,特别是AFM单细胞力谱（SCFS）技术可以对单细胞黏附力进行测量.但目前利用SCFS技术进行的研究主要集中在贴壁细胞,对于动物悬浮细胞黏附行为进行的研究还较为缺乏.本文利用AFM单细胞力谱技术（SCFS）对淋巴瘤细胞黏附行为进行了定量测量.研究了淋巴瘤细胞与其单克隆抗体药物利妥昔（利妥昔单抗与淋巴瘤细胞表面的CD20结合后激活免疫攻击）之间的黏附力,分析了利妥昔浓度及SCFS测量参数对黏附力的影响,并对淋巴瘤细胞之间的黏附力进行了测量.实验结果证明了SCFS技术探测动物悬浮细胞黏附行为的能力,加深了对淋巴瘤细胞黏附作用的认识,为单细胞尺度下生物力学探测提供了新的可能.     

整合素β2促进人乳腺癌细胞MCF-7的迁移,侵袭与粘附

本研究主要目标为探讨整合素β2 (ITGB2)的高表达对人乳腺癌细胞MCF-7迁移,侵袭与粘附能力的影响。本研究首先构建了ITGB2过表达质粒,实验设阴性对照组(pcDNA-3.1+)与ITGB2基因过表达组(pcDNA-3.1+/ITGB2)。ITGB2过表达质粒转染MCF-7细胞后,采用逆转录PCR与Western blotting方法分别检测ITGB2 mRNA转录水平与蛋白翻译水平;流式细胞术检测细胞周期的改变;划痕实验检测细胞横向迁移能力;Transwell小室实验检测细胞纵向迁移能力及侵袭能力;人脐静脉血管内皮细胞(HUVEC)粘附实验检测癌症细胞与血管内皮细胞之间的粘附能力,Western blotting实验检测侵袭相关指标MMP9,整合素经典通路中FAK蛋白磷酸化水平的改变。研究结果表明:转染ITGB2过表达质粒后,MCF-7细胞中ITGB2的m RNA水平(p<0.01)与蛋白水平(p<0.05)均显著增高;流式细胞术实验中,实验组S期的细胞所占比例与对照组无明显差异;划痕实验与Transwell小室实验中,实验组的迁移侵袭能力显著性增强;人脐静脉血管内皮细胞粘附实验中,实验组乳腺癌细胞与血管内皮细胞的粘附能力强于对照组(p<0.05);且Western blotting结果显示MMP9和p-FAK蛋白水平明显上升。由以上结果可得出结论,过表达ITGB2后会增强人乳腺癌细胞MCF-7的迁移、侵袭与粘附能力,而对其增殖能力无明显影响。     

BAG3 蛋白Ser187磷酸化位点定点突变促进FRO细胞迁移和侵袭

Bcl-2相关抗凋亡蛋白3（Bcl-2 associated athanogene 3,BAG3）是BAG家族的重要成员,调节肿瘤细胞的黏附、迁移和侵袭,促进恶性肿瘤的复发和转移。我们的前期工作证明,PKCδ可催化BAG3的Ser187位点磷酸化。本文研究BAG3蛋白磷酸化修饰对甲状腺癌FRO 细胞迁移、侵袭的影响及其可能机制。通过定点突变的方法,将BAG3蛋白的187位丝氨酸突变为天冬氨酸（S187D）模拟磷酸化,或者将丝氨酸突变为丙氨酸（S187A）抵抗磷酸化,从而间接推测BAG3蛋白Ser187位点磷酸化对FRO细胞迁移、侵袭的影响。 FRO细胞转染野生型BAG3、模拟磷酸化型BAG3、阻碍磷酸化型BAG3,通过划痕愈合实验和Transwell转移小室实验,观察BAG3蛋白磷酸化对FRO细胞迁移、侵袭的影响。进一步通过PKC激活剂和抑制剂,研究BAG3蛋白磷酸化对FRO细胞迁移、侵袭影响的机制。 结果显示,FRO BAG3-S187D模拟磷酸化组细胞在培养24 h、48 h时,划痕愈合率分别达到35%和80%。Transwell及三维Matrigel转移小室实验显示,平均每个视野穿膜细胞数分别达到180和350个,与对照组相比,差异有统计学意义（P<0.05）。PKC激活剂TPA及抑制剂Rottelerin处理FRO WT-BAG3细胞,24 h愈合率分别为40% 和15%,48 h划痕愈合率分别为55%和18%,Transwell穿膜细胞数分别为240和70个,与对照组细胞相比,差异显著（P<0.05）。本研究提示,BAG3蛋白Ser187磷酸化修饰,可促进甲状腺癌FRO细胞迁移、侵袭,其机制可能与PKC信号通路有关。     

人NK细胞对同种和异种内皮细胞MHCⅠ类分子的差异识别

以HUVEC和PAEC为靶细胞,人PBNK和NK92为效应细胞,研究了人NK细胞对同种和异种内皮细胞杀伤的差异性;并通过酸处理内皮细胞及抗体封闭MHCⅠ类分子、CD94和KIR(NKB1),研究了MHCⅠ类分子对人NK细胞杀伤HUVEC和PAEC的影响. 结果表明,PBNK和NK92对PAEC的杀伤均大于对HUVEC的杀伤. 酸处理后,两种NK细胞对HUVEC杀伤的增加幅度大于对PAEC的;此外,抗CD94单抗未能改变NK的杀伤效应;KIR(NKB1)封闭使PBNK杀伤HUVEC增加95%,杀伤PAEC仅增加29%. 以上结果提示:NK细胞对异种内皮细胞MHCⅠ类分子的差异识别作用可能是NK细胞杀伤PAEC的主要原因,而KIR很可能是NK杀伤内皮细胞时主要的传递抑制信号的受体.     

FAK和ILK介导骨桥蛋白诱导的血管平滑肌细胞黏附和迁移

黏着斑激酶（FAK）和整合素偶联激酶（ILK）是整合素信号途径中的重要信号转导分子,为阐明两者在血管平滑肌细胞（VSMC）黏附和迁移中的作用,以骨桥蛋白（OPN）作为VSMC黏附和迁移的诱导剂,检测其对FAK和ILK磷酸化以及对两者之间结合的影响.在此基础上,用FAK磷酸化特异性抑制剂黏着斑相关非激酶（FRNK）或ILK反义RNA分别阻断FAK磷酸化或ILK表达,进一步探讨两者在VSMC黏附和迁移中所起的作用.结果显示,OPN诱导可促进FAK磷酸化,诱导10 min后FAK磷酸化水平升高到对照组的2.4倍;与此同时,ILK的磷酸化受到抑制,30 min降至对照细胞的44.6％.OPN诱导FAK磷酸化的同时使FAK与ILK的结合减少.外源性FRNK在VSMC中的过表达显著降低FAK的磷酸化水平,促进ILK磷酸化和FAK与ILK之间的结合,抑制VSMC的黏附和迁移.用ILK反义RNA抑制ILK表达使VSMC在OPN上的黏附增加1.8倍,迁移细胞数降低45.5％.结果提示,FAK和ILK介导OPN诱导的VSMC黏附和迁移过程,两者通过对同一刺激信号产生不同的磷酸化变化而对VSMC的黏附和迁移产生不同的影响.     

神经干细胞的分化影响其对肝细胞生长因子的趋化性迁移

神经干细胞（neural stem cells,NSCs）的定向迁移对神经系统发育和损伤后修复至关重要,但NSCs的定向迁移与NSCs的分化之间的关系鲜有研究。该研究以此为切入点,以肝细胞生长因子（hepatocyte growth factor,HGF）为趋化因子,神经干细胞系C17．2为研究对象,首先,建立了不同分化阶段的NSCs（分别分化0,12,24,72h）的分化模型;其次,运用Boyden chamber和Dunn chamber研究了不同分化状态下的NSCs对HGF的趋化性迁移。Boyden chamber结果显示：下室加入HGF后,分化12,24h的NSCs迁移至膜下方的细胞数目显著高于分化0,72h的NSCs;Dunn chamber结果显示：分化12,24h的NSCs迁移效率显著高于分化0,72h的NSCs。这些结果表明,NSCs的分化影响其对HGF的趋化性迁移,为在临床上更有效地利用NSCs治疗各种神经系统退行性疾病提供了理论依据。     

沉默ST3Gal III抑制MDA-MB-231细胞黏附和侵袭能力

我们前期研究表明α2,3-唾液酸水平与乳腺癌侵袭转移密切相关。人α2,3-唾液酸转移酶（ST3Gal Ⅲ）可催化合成细胞表面的α2,3-唾液酸,并在乳腺癌组织中高表达,此酶活性与肿瘤转移潜能密切相关,但其机制尚未阐明。本研究中我们将继续探讨ST3Gal Ⅲ在对乳腺癌转移关键步骤粘附和侵袭中的作用。构建特异靶向ST3Gal Ⅲ的短发夹RNA（shRNA）序列的慢病毒载体,采用细胞转染沉默乳腺癌MDA-MB-231细胞的ST3Gal Ⅲ,经实时定量PCR及Western印迹检测转染后细胞ST3Gal Ⅲ mRNA及蛋白表达,验证构建了稳定下调ST3Gal Ⅲ表达的两个细胞克隆,分别记作shRNA-2、shRNA-4。细胞表面α2,3-唾液酸是ST3Gal Ⅲ下游产物,可代表酶活性。流式细胞术分析结果证实,shRNA-2、shRNA-4细胞表面α2,3-唾液酸的含量显著降低（P<0.05）。细胞黏附、细胞迁移及侵袭能力等功能学检测结果表明,shRNA细胞黏附能力及侵袭能力明显降低（P<0.05）。β1整合素表达与肿瘤侵袭能力获取密切相关。本研究中,沉默ST3Gal Ⅲ可抑制β1整合素表达（P<0.05）。这些结果提示,ST3Gal Ⅲ在乳腺癌转移关键步骤黏附和侵袭中具有重要作用,沉默ST3Gal Ⅲ抑制MDA MB-231细胞黏附和侵袭能力,其作用机制可能是通过下调β1整合素表达。此研究从新的视角认识了乳腺癌转移的机制,并可能提供乳腺癌转移治疗的新靶点。     

枳实提取物及其药效组分对OX—LDL损伤的人脐静脉内皮细胞ICAM-1表达和NO释放的影响

目的：研究枳实提取物及其药效组分橙皮苷和新橙皮苷对氧化低密度脂蛋白（oxidized lowd ensity lipoprotein,Ox—LDL）损伤的人脐静脉内皮细胞（human umbilical vein endothelial cells line,HUVEC）细胞间黏附分子-1（intercellular adhesion molecule-1,ICAM-1）表达和一氧化氮（nitric oxide,NO）释放的影响。方法：体外培养HUVEC,50μg／mLOX—LDL制造HUVEC损伤模型。以MTS染色法检测细胞毒性确定用药浓度。细胞ELISA法测定细胞表面ICAM-1的含量,试剂盒测定细胞培养上清液中NO含量。结果：①枳实提取物小于等于2mg／mL时,橙皮苷浓度小于等于0．03125mg／mL时,新橙皮苷浓度小于等于0．25mg／mL时,HUVEC存活率分别大于80％。②2．0mg／mL和1．0mg／mL两个浓度的枳实提取物、15．625μg／mL的橙皮苷和0．2500mg／mL新橙皮苷对OX—LDL诱导的HUVEC的ICAM-1表达有显著抑制作用。③2．0mg／mL枳实提取物显著提高OX—LDL诱导的HUVEC和正常HUVEC培养液中的NO含量;7．813ixg／mL、15．625μg／mL和31．250μg／mL 3个浓度的橙皮苷能显著提高OX—LDL诱导的HUVEC培养液中的NO含量,31．250μg／mL的橙皮苷能促进正常HUVEC的NO释放;0．2500mg／mL和0．1250mg／mL 2个浓度的新橙皮苷能显著提高OX—LDL诱导的HUVEC培养液中的NO含量。结论：枳实提取物及其药效组分橙皮苷、新橙皮苷能抑制Ox-LDL诱导的HUVEC的ICAM-1表达,促进Ox-LDL诱导的HUVEC的NO释放。     

Relations of the type and branch of surface N-glycans to cell adhesion, migration and integrin expressions

The relations between the structure of cell surface N-glycans to cell behaviors were studied in H7721 human hepatocarcinoma cell line, which predominantly expressed complex-type N-glycans on the surface. 1-Deoxymannojirimycin (DMJ) and swaisonine (SW), the specific inhibitor of Golgi alpha-mannosidase II or I, were selected to block the processing of N-glycans at the steps of high mannose and hybrid type respectively. All-trans retinoic acid (ATRA) and antisense cDNA of N-acetylglucosaminyltransferase-V (GnT-V) were used to suppress the expression of GnT-V and decreased the GlcNAc beta1,6-branching or tri-/tetra-antennary structure of surface N-glycans. The structural alterations of N-glycans were verified by sequential lectin affinity chromatography of [3H] mannose-labeled glycans isolated from the cell surface. The cell adhesions to fibronectin (Fn) and human umbilical vein epithelial cell (HUVEC), as well as cell migration (including chemotaxis and invasion) were selected as the parameters of cell behaviors. It was found that cell adhesion and migration were significantly decreased in SW and DMJ treated cells, suggesting that complex type N-glycan is critical for the above cell behaviors. ATRA and antisense GnTV enhanced cell adhesion to Fn but reduce cell adhesion to HUVEC and cell migration. These results reveal that cell surface complex-type N-glycans with GlcNAc beta1,6 branch are more effective than those without this branch in the cell adhesion to HUVEC and cell migration, but N-glycan without GlcNAc beta1,6-branch is the better one in mediating the cell adhesion to Fn. The integrin alpha5beta1 (receptor of Fn) on cell surface was unchanged by DMJ and SW. In contrast, ATRA up regulated alpha5, but not beta1, and antisense GnT-V decreased both alpha5 and beta1. This findings suggest that both the structure of N-glycan and the expression of integrin on cell surface are two of the important factors in the determination of cell adhesion to Fn, a complex biological process.     

Relations of the type and branch of surface N-glycans to cell adhesion,migration and integrin expressions

The relations between the structure of cell surface N-glycans to cell behaviors were studied in H7721 human hepatocarcinoma cell line, which predominantly expressed complex-type N-glycans on the surface. 1-Deoxymannojirimycin (DMJ) and swaisonine (SW), the specific inhibitor of Golgi -mannosidase II or I, were selected to block the processing of N-glycans at the steps of high mannose and hybrid type respectively. All-trans retinoic acid (ATRA) and antisense cDNA of N-acetylglucosaminyltransferase-V (GnT-V) were used to suppress the expression of GnT-V and decreased the GlcNAc1,6-branching or tri-/tetra-antennary structure of surface N-glycans. The structural alterations of N-glycans were verified by sequential lectin affinity chromatography of [³H] mannose-labeled glycans isolated from the cell surface. The cell adhesions to fibronectin (Fn) and human umbilical vein epithelial cell (HUVEC), as well as cell migration (including chemotaxis and invasion) were selected as the parameters of cell behaviors. It was found that cell adhesion and migration were significantly decreased in SW and DMJ treated cells, suggesting that complex type N-glycan is critical for the above cell behaviors. ATRA and antisense GnTV enhanced cell adhesion to Fn but reduce cell adhesion to HUVEC and cell migration. These results reveal that cell surface complex-type N-glycans with GlcNAc1,6 branch are more effective than those without this branch in the cell adhesion to HUVEC and cell migration, but N-glycan without GlcNAc1,6-branch is the better one in mediating the cell adhesion to Fn. The integrin 51 (receptor of Fn) on cell surface was unchanged by DMJ and SW. In contrast, ATRA up regulated 5, but not 1, and antisense GnT-V decreased both 5 and 1. This findings suggest that both the structure of N-glycan and the expression of integrin on cell surface are two of the important factors in the determination of cell adhesion to Fn, a complex biological process.     

Insulin/protein kinase B signalling pathway upregulates metastasis-related phenotypes and molecules in H7721 human hepatocarcinoma cell line.

The effect of insulin on cancer metastatic potential was studied in a human hepatocarcinoma cell line, H7721. Cell adhesion to human umbilical vein endothelial cells (HUVECs) and laminin as well as chemotactic cell migration and invasion were selected as the indices of metastasis-related phenotypes for assessment of metastatic potential ex vivo. The results indicated that insulin enhanced all of these metastasis-related phenotypes. After the cells were treated with specific inhibitor of PI3K (LY294002) or transfected with antisense cDNA of PKB (AS-PKB), all of the above phenotypes were attenuated, and they could not be significantly stimulated by insulin, indicating that the insulin effect on metastatic potential was mediated by PI3K and PKB. Only the monoclonal antibody to the sialyl Lewis X (SLe(x)), but not antibodies to other Lewis antigens, significantly blocked the cell adhesion to HUVECs, cell migration and invasion, suggesting that SLe(x) played a crucial role in the metastatic potential of H7721 cells. The upregulation of cell surface SLe(x) and alpha-1,3-fucosyltransferase-VII (alpha-1,3 Fuc T-VII, enzyme for SLe(x) synthesis) was also mediated by PI3K and PKB, since LY294002 and AS-PKB also reduced the expressions of SLe(x) and alpha-1,3 FucT-VII, and attenuated the response to insulin. Furthermore, the alterations in the expressions of PKB protein and activity were correlated to the changes of metastatic phenotypes and SLe(x) expression. Taken together, the insulin/PKB signalling pathway participated in the enhancement of metastatic potential of H7721 cells, which was mediated by the upregulation of the expression of SLe(x) and alpha-1,3 FucT-VII.     

alpha1,3 fucosyltransferase-VII up-regulates the mRNA of alpha5 integrin and its biological function

After transfection of alpha1,3fucosyltransferase (FucT)-VII cDNA into H7721 human hepatocarcinoma cells, the expression of alpha5, but not beta1 integrin was significantly up-regulated. This was evidenced by the increase of alpha5 integrin on cell surface as well as the increase of alpha5 mRNA and protein in the cells. However, the expressions of sialyl Lewis X (SLe(x), the product of alpha1,3FucT-VII) on both alpha5 and beta1 integrin subunits were unchanged. Concomitantly, the tyrosine autophosphorylated FAK and dephosphorylated Src (FAK and Src involve in the signal transduction of integrin alpha5beta1) were up-regulated, while the Tyr-527 phosphorylated Src was down-regulated. The above-mentioned alterations were correlated to the expressions of alpha1,3FucT-VII in different alpha1,3FucT-VII transfected H7721 cell lines. In addition, after alpha1,3FucT-VII transfection, cell adhesion to fibronectin (Fn) and chemotaxic cell migration were obviously promoted. The cell adhesion could be blocked by alpha5 integrin antibody, and cell migration was obviously attenuated by the antibodies to both alpha5 integrin and SLe(x). These findings suggest that the increased surface alpha5 integrin caused by the up-regulation of alpha5 mRNA promotes the cell adhesion to Fn, cell migratiom, and Fn-induced signaling of alpha5beta1 integrin. The up-regulation of surface SLe(x) originated from the over expression of alpha1,3FucT-VII also led to the stimulation of cell migration. This is the first time to report that alpha1,3FucT-VII can regulate the mRNA expression of integrin.     

Down-regulation of N-acetylglucosaminyltransferase V by tumorigenesis- or metastasis-suppressor gene and its relation to metastatic potential of human hepatocarcinoma cells

The effects of transfection of the metastasis suppressor gene nm23-H1 and cell-cycle related tumor-suppressor gene p16 on the activity of N-acetylglucosaminyltransferase V (GnT-V) and their relations to cancer metastatic potential were investigated. After transfection of nm23-H1 into 7721 human hepatocarcinoma cells and A549 human lung cancer cells, the activities of GnT-V were decreased by 28%-42% in the cells. In contrast, when p16 was transfected into these two cell lines, the decrease of GnT-V activity was only observed in A549 cells. This was probably to be due to the obvious expression of p16 gene in parental 7721 cells and the deletion of p16 in A549 cells. The decrease of GnT-V mRNA was only observed in nm23-H1-transfected cells, but not in p16-transfected A549 cells, suggesting that these two genes regulated GnT-V via different mechanisms. Horseradish peroxidase (HRP)-lectin staining showed that the 7721 cells transfected with nm23-H1 or the A549 cells transfected with p16 displayed a decreased intensity with HRP-leucoagglutinating phytohemagglutinin and increased intensity with HRP-concanavalin A, indicating the decline of beta1,6 N-acetylglucosamine branching structure on the asparagine-linked glycans of cell-surface and intracellular glycoproteins. The nm23-H1 transfected 7721 cells also displayed some changes in metastasis-related phenotypes, including the increase in cell adhesion to fibronectin (Fn), the decline in cell adhesion to laminin (Ln), and the decreased cell migration and invasion through matrigel. Transfection of antisense GnT-V cDNA into 7721 cells resulted in a decrease of GnT-V activity, an increase of cell adhesion to Fn or Ln, and a decrease in cell migration and invasion through matrigel. These phenotypes bore similarity to those of the 7721 cells transfected with nm23-H1. Our findings indicate that the down-regulation of GnT-V by nm23-H1 contributes to the alterations in metastasis-related phenotypes, and is an important molecular mechanism of metastasis suppression mediated by nm23-H1.     

Gangliosides expressed on breast cancer cells are E-selectin ligands

Cancer cell adhesion to vascular endothelium is a critical process in hematogenous metastasis. We hypothesized that breast cancer cells express ligands that bind under blood flow conditions to E-selectin expressed by endothelial cells. At a hemodynamic wall shear rate, BT-20 and MDA-MB-468 breast cancer cells adhered to cytokine-activated human umbilical cord vein endothelial cells (HUVECs) but not to anti-E-selectin monoclonal antibody treated HUVECs, demonstrating that adhesion was specifically mediated by E-selectin. Characterization of glycans expressed on breast cancer cells by a panel of antibodies revealed that BT-20 cells expressed sialyl Lewis X (sLe^x) and sialyl Lewis A (sLe^a) but MDA-MB-468 cells did not, suggesting that the former possess classical glycans involved in E-selectin mediated adhesion while the latter have novel binding epitopes. Protease treatment of the breast cancer cells failed to significantly alter the carbohydrate expression profiles, binding to soluble E-selectin–Ig chimera, or the ability of the cells to tether and roll on E-selectin expressed by HUVECs, indicating that glycosphingolipids are functional E-selectin ligands on these cells. Furthermore, extracted breast cancer cell gangliosides supported binding of E-selectin–Ig chimera and adhesion of E-selectin transfected cells under physiological flow conditions. In summary, our results demonstrate that breast cancer cells express sialylated glycosphingolipids (gangliosides) as E-selectin ligands that may be targeted for prevention of metastasis.     

Effect of sialyl Lewis X-glycoliposomes on the inhibition of E-selectin-mediated tumour cell adhesion in vitro

The aim of this study was to evaluate the potential of different types of sialyl Lewis X-conjugated liposomes as competitive inhibitors for tumour cell adhesion to endothelial E-selectin. Sterically stabilised liposomes with the sLeX ligand at the terminal end of the polyethyleneglycol (PEG) chain, as well as vesicles that had the ligand embedded within the PEG-layer, were compared to ligand-bearing liposomes without sterical stabilisation. First, 14 different tumour cell lines were characterised for their expression of sialyl Lewis X and/or A. Tumour cell adhesion was characterised in three static assays in vitro using: (i) immobilised E-selectin, (ii) CHO cells, transfected to express E-selectin and (iii) human umbilical vein endothelial cells (HUVEC). Sterically stabilised liposomes with the ligand at the terminal end of the polyethylene chain were the most effective inhibitors in all three assays and inhibited the adhesion of HT29 colon- and Lewis lung (LL) carcinoma cells by about 60-80%. The binding was not affected by a PEG-coating of the liposomes. Sterical stabilisation, on the other hand, completely prevented macrophage uptake (J774 cell line) independently of the presence of the ligand, while plain liposomes were taken up in an amount of 5.4 nmol liposomal lipids/10(6) macrophages.     

Pro-inflammatory effect of TWEAK/Fn14 interaction on human umbilical vein endothelial cells

TWEAK, a member of the TNF family, induces cell death in some tumor cell lines, but also induces proliferation of endothelial cells and angiogenesis. Recently, fibroblast growth factor-inducible 14 (Fn14) has been identified to be a TWEAK receptor, which may be responsible for the proliferation of endothelial cells and angiogenesis. In this study, we investigated the pro-inflammatory effect of TWEAK on human umbilical vein endothelial cells (HUVEC). We demonstrated that TWEAK could not only induce the proliferation and migration but also upregulate the cell surface expression of adhesion molecules such as ICAM-1 and E-selectin, and induce the secretion of chemokines such as IL-8 and MCP-1 in HUVEC. Moreover, by using an anti-Fn14 mAb that blocks the TWEAK/Fn14 interaction, we demonstrated that Fn14 was constitutively expressed on HUVEC and totally mediated the biological effects of TWEAK on HUVEC. These results indicated that TWEAK could induce pro-inflammatory reactions via Fn14 on HUVEC.     

Matrix-dependent proteolysis of surface transglutaminase by membrane-type metalloproteinase regulates cancer cell adhesion and locomotion

Cell invasion requires cooperation between adhesion receptors and matrix metalloproteinases (MMPs). Membrane type (MT)-MMPs have been thought to be primarily involved in the breakdown of the extracellular matrix. Our report presents evidence that MT-MMPs in addition to the breakdown of the extracellular matrix may be engaged in proteolysis of adhesion receptors on tumor cell surfaces. Overexpression of MT1-MMP by glioma and fibrosarcoma cells led to proteolytic degradation of cell surface tissue transglutaminase (tTG) at the leading edge of motile cancer cells. In agreement, structurally related MT1-MMP, MT2-MMP, and MT3-MMP but not evolutionary distant MT4-MMP efficiently degraded purified tTG in vitro. Because cell surface tTG represents a ubiquitously expressed, potent integrin-binding adhesion coreceptor involved in the binding of cells to fibronectin (Fn), the proteolytic degradation of tTG by MT1-MMP specifically suppressed cell adhesion and migration on Fn. Reciprocally, Fn in vitro and in cultured cells protected its surface receptor, tTG, from proteolysis by MT1-MMP, thereby supporting cell adhesion and locomotion. In contrast, the proteolytic degradation of tTG stimulated migration of cells on collagen matrices. Together, our observations suggest both an important coreceptor role for cell surface tTG and a novel regulatory function of membrane-anchored MMPs in cancer cell adhesion and locomotion. Proteolysis of adhesion proteins colocalized with MT-MMPs at discrete regions on the surface of migrating tumor cells might be controlled by composition of the surrounding ECM.     

Forskolin up-regulates metastasis-related phenotypes and molecules via protein kinase B,but not PI-3K,in H7721 human hepato-carcinoma cell line

Forskolin (FSK) is known as an up-regulator of intracellular cAMP and inhibitor of cancer growth and metastasis. The effects of FSK on the metastasis potential and its mechanisms were studied using a human hepatocarcinoma cell line, H7721. It was found that FSK stimulated cell growth, increased cAMP in the cells, and enhanced the metastasis-related phenotypes, including adhesion to laminin (Ln) and human umbilical vein epithelial cells (HUVEC), chemotactic migration and invasion. These effects were supposed to result from the increase of the SLe^x expression induced by FSK, since only the monoclonal antibody of SLe^x showed a significant attenuation of the enhanced metastasis-associated phenotypes. Using H7721 cells transfected with the sense or antisense cDNA of protein kinase B (PKB) and some inhibitors of signal transduction, it was discovered that FSK up-regulated the expression of SLe^x via PKB, but it was independent of phosphotidylinositide-3-kinase (PI-3K). A subtype of atypical protein kinase C (-PKC) might also participate in the up-regulation of SLe^x expression by FSK, and cAMP/PKA pathway is a negative regulator of SLe^x expression on H7721 cells. It can be concluded that FSK shows a metastasis-promoting effect ex vivo.