MDM2反义寡核苷酸联合紫杉醇对乳腺癌MCF-7细胞株的作用

目的:探讨靶向MDM2反义寡核苷酸(ASON)联合紫杉醇对乳腺癌MCF-7细胞株的影响。方法:合成一段与MDM2 mRNA特异性结合的反义寡核苷酸和与反义寡核苷酸有4个碱基不同的的错义寡核苷酸(MON),脂质体2000介导不同浓度的MDM2ASON转染MCF-7乳腺癌细胞系,转染的乳腺癌细胞通过1μmol/L紫杉醇药物处理后,采用RT-PCR和Western Blot方法检测MDM2 ASON联合紫杉醇的协同作用及对乳腺癌MCF-7细胞株的抑制效率,MTT观察给药后MCF-7细胞的增殖能力和药物敏感性。结果:MDM2反义寡核苷酸联合紫杉醇明显下调MDM2 mRNA及MDM2蛋白表达水平,抑制MCF-7细胞的生长,随着MDM2 ASON浓度的增加,MDM2表达越来越低,协同作用越来越强,呈剂量依赖关系,A500联合紫杉醇的协同作用最明显,MTT显示紫杉醇处理的转染MCF-7细胞增殖抑制率明显增高,A500抑制增殖作用最明显,抑制率达(13.0±0.84)%。结论:不同浓度MDM2 ASON转染后的乳腺癌MCF-7细胞,等浓度紫杉醇处理后,乳腺癌MCF-7细胞MDM2表达明显降低,细胞凋亡增加,,MDM2 ASON联合紫杉醇对MCF-7细胞有协同作用,提高了乳腺癌MCF-7细胞对紫杉醇的药物敏感性。     

CDK1 siRNA干扰在Taxol诱导细胞凋亡中的作用

目的研究转染细胞周期依赖性蛋白激酶1（cyclin．dependent kinase1,CDK1）siRNA、以及转染后进行凋亡刺激对细胞周期和凋亡的影响,探讨CDK1在细胞凋亡中的确切作用,揭示细胞周期与细胞凋亡协调的分子机制。方法以人宫颈癌细胞株HeLa细胞为研究对象,脂质体转染CDK1siRNA,转染后48h加紫杉醇（Tax01）（20μg／m1）刺激凋亡,Western印迹检测CDK1和抗凋亡蛋白BCL2表达,AnnexinV／PI法检测细胞的凋亡,流式细胞仪分析DNA含量检测细胞周期。结果转染CDK1 siRNA后,CDK1蛋白的表达下降,细胞周期G2／M期比例增加,细胞凋亡率与对照相比没有明显升高。只加Taxol刺激12h后细胞凋亡率增加并伴有S期和G2／M期比例增加。转染CDKlsiRNA后再用Taxol刺激,其细胞凋亡率没有明显改变,G2／M期阻滞效应也没有叠加。BCL2蛋白只在加Taxol刺激组表达下降,与CDK1表达减少没有相关性。结论siRNA沉默导致的CDK1表达降低只导致细胞周期G2／M期阻滞,没有引起细胞凋亡;CDK1的表达降低对紫杉醇所诱导的细胞周期阻滞和细胞凋亡效应没有明显影响。     

两株耐紫杉醇人乳腺癌细胞MCF-7的比较

建立稳定的肿瘤多药耐药(MDR)细胞株是肿瘤MDR机制研究的基础,以MCF-7细胞林为亲本细胞株,采用低浓度加量持续诱导和高浓度短期作用分别建立MCF-7/Taxola和MCF-7/Taxolb细胞模型,并对其耐药谱、动力学周期变化、表形变化、细胞侧群分布、药物蓄积等生物学特性比较评价.结果表明,MCF-7/Taxola和MCF-7/Taxolb细胞的紫杉醇(paclitaxel/Taxol)半数抑制浓度(IC50)分别是亲代MCF-7细胞的525倍和330倍,并且都对多种化疗药物交叉耐药;MCF-7/Taxola细胞S期细胞显著增加,G,期细胞减少;MCF-7/Taxolb细胞各个期变化不大;MCF-7/Taxola细胞P-糖蛋白(P-gP)、肺耐药相关蛋白(LRP)和还原型谷胱甘肽-S转移酶(GSTπ)的表达水平较亲代有显著增加,而MCF-7/Taxolb细胞GSTπ的表达水平较亲代也有显著增加,另外,拓扑异构酶Ⅱ(ToPoⅡ)在两株耐药细胞中表达都明显下降,而两株细胞雌激素受体(ER)、孕激素受体(PR)阳性都表达丢失;光镜下耐药细胞MCF-7/Taxola明显变大并且形态不规则而MCF-7/Taxolb变化不大;电镜下MCF-7/Taxolb表面纤绒毛成小球状隆起和絮状,而MCF-7/Taxolb表面成絮状:MCF-7/Taxola撤药10天后细胞中有紫杉醇蓄积,而MCF-7/Taxolb中没有紫杉醇蓄积.两个模型都具有MDR的基本生物学特性,可用于肿瘤MDR机制的研究,通过两种耐药细胞的比较,推测MCF-7/Taxolb细胞是MCF-7/Taxola细胞的一个亚群.     

沉默Bmi-1基因表达对MCF-7细胞阿霉素敏感性的影响

目的研究Bmi-1对MCF-7细胞阿霉素敏感性的影响及机制。方法阿霉素处理MCF-7／Bmilsi、MCF-7／GFPsi和MCF一7细胞株,M1Tr法检测阿霉素的IC50;DAPI检测阿霉素处理后细胞的凋亡,计算凋亡指数（apoptosisindex,AI）;Western印迹检测相关蛋白P53,phospho—Akt（Ser473）（pAkt）,totle—Akt（tAkt）,Bcl-2,Bax的表达。结果阿霉素处理72h的MCF-7／Bmi．1si组生长抑制率明显高于MCF-7和MCF-7／GFPsi组,MCF-7／Bmilsi组的IC50为（0．15±0．02）μg／ml,而MCF-7组和MCF-7／GFPsi组的IC50分别为（0．87±0．06）μg/ml和（0．81±0．02）μg/ml（P〈0．05）。阿霉素处理48h后用DAPI检测凋亡发现,MCF-7／Bmi．lsi＋doxorubiein组可见大量凋亡细胞,而MCF-7＋doxorubicin和MCF-7／GFPsi＋doxo—rubicin组出现较少的凋亡细胞,MCF-7／Bmi-1si＋doxorubicin组凋亡指数明显高于对照组（P〈0．05）。进一步研究发现：MCF-7／Bmi．1si＋doxorubicin组与MCF-7＋doxorubiein及MCF-7／GFPsi＋doxorubiein组相比,P53表达量增加,tAkt表达未发生改变,而pAkt的表达明显减少,另外,Bcl-2表达量减少而Bax表达量增加,差异具有显著性（P〈0．05）。结论沉默Bmi—l基因表达能增加MCF-7细胞对阿霉素的敏感性,增加阿霉素引起的凋亡。     

抑制NDRG2基因表达对宫颈癌Hela细胞紫杉醇化疗敏感性的影响

目的:NDRG2是N-Myc downstream regulated gene家族的成员之一,与细胞增殖和分化相关.前期研究发现,抑制NDRG2表达可以提高宫颈癌Hela细胞对于顺铂的化疗敏感性,本研究采用RNA干扰技术抑制人宫颈癌Hela细胞中NDRG2基因的表达研究其对Hela细胞紫杉醇化疗敏感性的影响.方法:利用化学合成的针对NDRG2特异性siRNA瞬时转染Hela细胞株,采用RT-PCR和Western Blot检测NDRG2 mRNA和蛋白表达情况,通过MTT法检测其与对照细胞在顺铂作用下的体外存活率差异.SPSSll.0统计包处理,采用t检验,P＜0.05为差异有统计学意义.结果:在mRNA和蛋白水平,化学合成的NDRG2特异性siRNA oligomer可使Hela细胞的NDRG2表达水平明显降低.在0.1、1、10、100、500、1000 μg/mL紫杉醇浓度组,Negative-control和NDRG2siRNA细胞的相应细胞存活率分别为97.21±2.38、90.09±2.42、83.35±3.86、62.93±3.75、18.22±5.46、1.14± 0.67和99.62±3.15、94.91±3.83、85.71±2.93、58.59± 3.36、17.99±3.40、0.73±0.34,组间比较P值均大于0.05,差异无统计学意义.结论:抑制NDRG2表达不影响宫颈癌Hela细胞在紫杉醇作用下的细胞存活率,不能提高其对紫杉醇的化疗敏感性.进一步拓展了对该基因的功能认知.     

靶向干扰Chkl增强阿霉素抗人乳腺癌MCF-7/adr细胞的作用机制研究

Chkl的高表达可能是肿瘤对化疗药物的敏感性降低的重要因素之一,本研究的目的是观察siRNA干扰Chk1对人乳腺癌耐药细胞株MCF-7/adr(耐阿霉素)生长及细胞周期的影响,探讨Chk1在乳腺癌细胞耐药中的作用机制。采用RNAi技术抑制MCF-7/adr细胞中Chk1的表达。Westernblot检测转染前后细胞内Chk1蛋白表达情况,经阿霉素作用后,流式细胞术(FCM)检测其细胞周期分布及细胞凋亡率,MTT法检测细胞增殖。Western blot结果显示,Chk1 siRNA转染24h后,MCF-7/adr细胞中Chk1蛋白表达下降了67%,明显低于对照组和空载体转染组(P<0.05)。FCM法检测结果显示,同时,抑制Chk1的表达可解除阿霉素引起的G_2/M期阻滞;使阿霉素诱导的细胞凋亡率由转染前的(5.54±0.15)%上升到(22.24±0.13)%(P<0.05);在阿霉素浓度为0.4mg/L、4mg/L时,细胞的增殖活性分别下降13%、34%。提示siRNA干扰Chk1能够通过调控MCF-7/adr细胞周期及增殖从而增强乳腺癌细胞对阿霉素的敏感性,为临床上克服乳腺癌化疗耐药提供了新的作用靶点。     

Sprouty2蛋白与人乳腺癌MCF-7细胞增殖与迁徙的关系

目的：探讨Sprouty2蛋白与人乳腺癌MCF-7细胞增殖与迁徙的关系。方法：通过siRNA技术干扰MCF-7细胞sprouty2基因的表达,通过qPCR,细胞免疫荧光和westernblotting检测sprouty2基因的干扰效果,MTT检测细胞增殖活力,划痕实验观察细胞迁徙能力,westernblotting检测MMP-2,MMP-9和MMP-13的表达。结果：qPCR,细胞免疫荧光和westernblotting检测sprouty2基因,发现sprouty2基因的下调很明显,MTT实验发现siRNASprouty2基因后的MCF-7细胞比对照组细胞活力明显提高,沉默组细胞的迁徙能力也明显强于对照组,且沉默sprouty2基因的MCF-7细胞,MMP-2,MMP-9和MMP-13蛋白相对对照组均上调。结论：sprouty2基因下调后,MCF-7细胞的细胞活力和迁徙能力明显提高。     

白细胞介素-2受体在乳腺癌MCF-7细胞的表达

目的 :观察乳腺癌MCF 7细胞上白细胞介素 2受体 (IL 2R)α、β和γ链的表达、IL 2对MCF 7细胞增殖的作用及雌激素对三条链表达的影响。方法 :使用特异性IL 2R多克隆抗体以免疫细胞化学方法和流式免疫荧光法检测MCF 7细胞上IL 2R的表达 ,以MTT法及3 H TdR掺入法检测细胞增殖情况。结果 :MCF 7细胞上存在IL 2Rα、β、γ的免疫阳性物质 ,其中IL 2Rγ的表达要强于IL 2Rα、β的表达 ;10 -6mol/L浓度的雌二醇可促进IL 2Rα、β的阳性细胞数及IL 2Rγ的免疫阳性物质的含量 ;IL 2在 10 0U/ml至 10 0 0U/ml的浓度范围内可显著促进MCF 7细胞的增殖。结论 :MCF 7细胞上存在IL 2R且其表达受雌二醇的调节 ,IL 2可能通过IL 2R影响MCF 7细胞的增殖     

SLP-2荧光表达载体的构建及其在乳腺癌细胞MCF-7中的表达与定位

人的SLP-2基因是一个新的肿瘤相关基因,它在多个癌组织里高表达,如食管鳞状细胞癌组织和肺癌组织。其中在乳腺癌组织的高表达和病人的存活率负相关,这说明该基因很可能在乳腺癌的发生中发挥重要作用。为了研究SLP-2基因在肿瘤里的功能,将人类SLP-2基因全长编码区定向连入pEGFP—C3质粒,使SLP-2蛋白可以与绿色荧光蛋白在乳腺癌细胞MCF-7内融合表达。而且细胞荧光实验发现SLP-2蛋白主要定位在MCF-7细胞的胞质内,这为进一步研究SLP-2基因在乳腺癌中的功能奠定了实验基础。     

灰树花多糖对乳腺癌细胞MCF-7的凋亡作用

采用MTT法测定不同给药浓度的灰树花多糖(PGF) (1、10、20、50、100和200 μg/mL)在24、48和72 h对乳腺癌细胞(MCF-7)增殖的抑制率,并采用Hoechst染色与流式细胞技术观察20、50和100 μg/mL PGF给药24 h后MCF-7的凋亡情况,同时采用Western blotting对20、50、100 μg/mL PGF给药24 h后MCF-7细胞中Bax、Bcl-2、Pro-Caspase-3以及Cleaved Caspase-3的蛋白表达水平进行检测。研究发现PGF给药24、48和72 h后对MCF-7的增殖均有显著的抑制作用。随着PGF给药浓度增加,MCF-7细胞核裂解增多,细胞凋亡数量增多。PGF 20、50和100 μg/mL给药对MCF-7细胞Bax、Bcl-2、Pro-Caspase-3以及Cleaved Caspase-3的蛋白表达水平可见显著性差异。     

Mad2 and BubR1 modulates tumourigenesis and paclitaxel response in MKN45 gastric cancer cells

Aneuploidy and chromosomal instability (CIN) are common features of gastric cancer (GC), but their contribution to carcinogenesis and antitumour therapy response is still poorly understood. Failures in the mitotic checkpoint induced by changes in expression levels of the spindle assembly checkpoint (SAC) proteins cause the missegregation of chromosomes in mitosis as well as aneuploidy. To evaluate the possible contribution of SAC to GC, we analyzed the expression levels of proteins of the mitotic checkpoint complex in a cohort of GC cell lines. We found that the central SAC proteins, Mad2 and BubR1, were the more prominently expressed members in disseminated GC cell lines. Silencing of Mad2 and BubR1 in MKN45 and ST2957 cells decreased their cell proliferation, migration and invasion abilities, indicating that Mad2 and BubR1 could contribute to cellular transformation and tumor progression in GC. We next evaluated whether silencing of SAC proteins could affect the response to microtubule poisons. We discovered that paclitaxel treatment increased cell survival in MKN45 cells interfered for Mad2 or BubR1 expression. However, apoptosis (assessed by caspase-3 activation, PARP proteolysis and levels of antiapoptotic Bcl 2-family members), the DNA damage response (assessed by H2Ax phosphorylation) and exit from mitosis (assessed by Cyclin B degradation and Cdk1 regulation) were activated equally between cells, independently of Mad2 or BubR1-protein levels. In contrast, we observed that the silencing of Mad2 or BubR1 in MKN45 cells showed the induction of a senescence-like phenotype accompanied by cell enlargement, increased senescence-associated β-galactosidase activity and increased IL-6 and IL-8 expression. In addition, the senescent phenotype is highly increased after treatment with PTX, indicating that senescence could prevent tumorigenesis in GC. In conclusion, the results presented here suggest that Mad2 and BubR1 could be used as prognostic markers of tumor progression and new pharmacological targets in the treatment for GC.     

Shugoshin is a Mad1/Cdc20-like interactor of Mad2

Mammalian centromeric cohesin is protected from phosphorylation-dependent displacement in mitotic prophase by shugoshin-1 (Sgo1), while shugoshin-2 (Sgo2) protects cohesin from separase-dependent cleavage in meiosis I. In higher eukaryotes, progression and faithful execution of both mitosis and meiosis are controlled by the spindle assembly checkpoint, which delays anaphase onset until chromosomes have achieved proper attachment to microtubules. According to the so-called template model, Mad1-Mad2 complexes at unattached kinetochores instruct conformational change of soluble Mad2, thus catalysing Mad2 binding to its target Cdc20. Here, we show that human Sgo2, but not Sgo1, specifically interacts with Mad2 in a manner that strongly resembles the interactions of Mad2 with Mad1 or Cdc20. Sgo2 contains a Mad1/Cdc20-like Mad2-interaction motif and competes with Mad1 and Cdc20 for binding to Mad2. NMR and biochemical analyses show that shugoshin binding induces similar conformational changes in Mad2 as do Mad1 or Cdc20. Mad2 binding regulates fine-tuning of Sgo2's sub-centromeric localization. Mad2 binding is conserved in the only known Xenopus laevis shugoshin homologue and, compatible with a putative meiotic function, the interaction occurs in oocytes.     

BMI1基因下调使宫颈癌和子宫内膜癌对紫杉醇敏感

目的 研究B细胞特异性莫洛尼鼠白血病病毒插入位点1（BMI1）基因对宫颈癌及子宫内膜癌增殖浸润及紫杉醇耐受的影响及其机制。方法 首先利用Cbioportal、TCGA和CPTAC数据库分析BMI1基因在宫颈癌和子宫内膜癌中的突变及表达情况。接着对人宫颈癌组织样本和人子宫内膜癌组织样本中BMI1的蛋白质表达水平进行免疫组化分析。采用蛋白质印迹法（Western blot)检测BMI1敲低后宫颈癌及子宫内膜癌细胞中BMI1下游调控因子的蛋白质水平变化。此外,通过细胞功能实验研究了BMI1在宫颈癌HeLa及子宫内膜癌HEC-1-A细胞中的功能。最后,通过实验评估siBMI1联合紫杉醇治疗的协同抗生长作用。结果 数据库分析结果显示,BMI1在1.5%的子宫颈癌患者及1.9%的子宫内膜癌的患者中存在不同程度的扩增、错义及剪接突变。此外,高mRNA水平的BMI1与宫颈癌的病理类型相关,且高蛋白质水平的BMI1与子宫内膜癌的病理类型和肿瘤分级及较低的生存率相关。进一步的免疫组化分析发现,与正常组织相比,宫颈癌和子宫内膜癌组织中BMI1蛋白水平表达升高,且与肿瘤的病理分化及浸润深度相关。药物敏感性实验显示,BMI1过表达导致HeLa及HEC-1-A细胞对多种抗癌药物的敏感性下降,其中包括紫杉醇。为了进一步分析BMI1与紫杉醇耐受的关系,通过Western blot检测BMI1敲除后HeLa及HEC-1-A细胞中BMI1下游因子的蛋白质水平变化。结果显示,抗凋亡相关蛋白Bcl-2随着BMI1的敲低而表达水平下降,而促凋亡相关蛋白BAX则显著升高。此外,细胞功能实验结果显示,体外过表达BMI1可促进HeLa及HEC-1-A细胞的增殖和迁移,且BMI1低表达的HeLa及HEC-1-A细胞对紫杉醇更敏感。结论 BMI1在宫颈癌和子宫内膜癌患者的肿瘤组织中过表达,BMI1的下调通过调控凋亡通路使CC和EC细胞对紫杉醇更加敏感。     

Rev7/Mad2B plays a critical role in the assembly of a functional mitotic spindle

The spindle assembly checkpoint (SAC) acts as a guardian against cellular threats that may lead to chromosomal missegregation and aneuploidy. Mad2, an anaphase-promoting complex/cyclosome-Cdc20 (APC/C^Cdc20) inhibitor, has an additional homolog in mammals known as Mad2B, Mad2L2 or Rev7. Apart from its role in Polζ-mediated translesion DNA synthesis and double-strand break repair, Rev7 is also believed to inhibit APC/C by negatively regulating Cdh1. Here we report yet another function of Rev7 in cultured human cells. Rev7, as predicted earlier, is involved in the formation of a functional spindle and maintenance of chromosome segregation. In the absence of Rev7, cells tend to arrest in G2/M-phase and display increased monoastral and abnormal spindles with misaligned chromosomes. Furthermore, Rev7-depleted cells show Mad2 localization at the kinetochores of metaphase cells, an indicator of activated SAC, coupled with increased levels of Cyclin B1, an APC^Cdc20 substrate. Surprisingly unlike Mad2, depletion of Rev7 in several cultured human cell lines did not compromise SAC activity. Our data therefore suggest that besides its role in APC/C^Cdh1 inhibition, Rev7 is also required for mitotic spindle organization and faithful chromosome segregation most probably through its physical interaction with RAN.     

Caveolin-1对乳腺癌细胞系MCF-7增殖和存活的影响

该文研究窖蛋白(Caveolin-1)对乳腺癌细胞系MCF-7细胞增殖与存活的影响。运用蛋白质印迹方法(Western blot)检测发现,caveolin-1在5株不同细胞系均只有低表达。运用电穿孔转染方法在乳腺癌细胞系中高表达Caveolin-1,运用Western blot检测转染后Caveolin-1表达情况发现,转染后细胞内Caveolin-1表达上升,并具有生物活性。运用单核细胞直接细胞毒性测定法(MTT)检测发现,转染后乳腺癌细胞系MCF-7增殖速度降低。运用Western blot方法和免疫荧光(immunofluorescence)方法检测转染后细胞凋亡途径的变化,磷酸化的P38蛋白含量上升,Bax表达量明显上升。据此推测Caveolin-1抑制MCF-7细胞的增殖和存活,并诱导基于Bax途径的细胞凋亡。     

A direct role of Mad1 in the spindle assembly checkpoint beyond Mad2 kinetochore recruitment

The spindle assembly checkpoint (SAC) ensures accurate chromosome segregation by delaying entry into anaphase until all sister chromatids have become bi‐oriented. A key component of the SAC is the Mad2 protein, which can adopt either an inactive open (O‐Mad2) or active closed (C‐Mad2) conformation. The conversion of O‐Mad2 into C‐Mad2 at unattached kinetochores is thought to be a key step in activating the SAC. The “template model” proposes that this is achieved by the recruitment of soluble O‐Mad2 to C‐Mad2 bound at kinetochores through its interaction with Mad1. Whether Mad1 has additional roles in the SAC beyond recruitment of C‐Mad2 to kinetochores has not yet been addressed. Here, we show that Mad1 is required for mitotic arrest even when C‐Mad2 is artificially recruited to kinetochores, indicating that it has indeed an additional function in promoting the checkpoint. The C‐terminal globular domain of Mad1 and conserved residues in this region are required for this unexpected function of Mad1.     

The closed form of Mad2 is bound to Mad1 and Cdc20 at unattached kinetochores

The spindle assembly checkpoint (SAC) ensures accurate chromosome segregation by delaying anaphase onset in response to unattached kinetochores. Anaphase is delayed by the generation of the mitotic checkpoint complex (MCC) composed of the checkpoint proteins Mad2 and BubR1/Bub3 bound to the protein Cdc20. Current models assume that MCC production is catalyzed at unattached kinetochores and that the Mad1/Mad2 complex is instrumental in the conversion of Mad2 from an open form (O-Mad2) to a closed form (C-Mad2) that can bind to Cdc20. Importantly the levels of Mad2 at kinetochores correlate with SAC activity but whether C-Mad2 at kinetochores exclusively represents its complex with Mad1 is not fully established. Here we use a recently established C-Mad2 specific monoclonal antibody to show that Cdc20 and C-Mad2 levels correlate at kinetochores and that depletion of Cdc20 reduces Mad2 but not Mad1 kinetochore levels. Importantly reintroducing wild type Cdc20 but not Cdc20 R132A, a mutant form that cannot bind Mad2, restores Mad2 levels. In agreement with this live cell imaging of fluorescent tagged Mad2 reveals that Cdc20 depletion strongly reduces Mad2 localization to kinetochores. These results support the presence of Mad2-Cdc20 complexes at kinetochores in agreement with current models of the SAC but also argue that Mad2 levels at kinetochores cannot be used as a direct readout of Mad1 levels.     

GAB2提高体外培养的乳腺癌MCF-7细胞迁移能力

GRB2相关结合蛋白（GRB2-associated binding protein 2,GAB2)是Gabs家族重要成员,在细胞增殖、分化及迁移等过程中发挥重要作用。已有研究证明,GAB2与肿瘤侵袭转移相关,但目前GAB2在乳腺癌细胞侵袭中的研究少见报道。本研究证明,GAB2可提高乳腺癌MCF-7细胞迁移能力。Western印迹结果显示,GAB2蛋白在高转移细胞株MDA-MB-231中高表达|相反,在低转移细胞株MCF-7中低表达。瞬时转染结合Western印迹、酶联免疫吸附实验(ELISA)揭示,过表达GAB2明显增加MMP-2及MMP-9蛋白表达。Transwell检测显示,过表达GAB2明显增强MCF-7细胞的迁移能力。与未转染细胞比较,采用10 ng/mL表皮细胞生长因子(EGF)刺激转染细胞5 min,即可明显增强磷酸化的Akt、ARK5表达。上述结果提示,GAB2可通过参与Akt-ARK5信号通路,增加MMP-2、MMP-9蛋白表达,增强肿瘤细胞的迁移能力,这可能是GAB2促进肿瘤侵袭的部分机制。