5-Aza-CdR对膀胱癌细胞生长及hsa-miR-203表达的影响

许多研究表明,miRNAs在肿瘤中失活与特定的遗传和表观遗传机制改变有关,hsa-miR-203在膀胱癌组织和细胞中表达下调并扮演着抑癌基因的角色。为了验证hsa-miR-203在膀胱癌细胞中是否受DNA甲基化抑制,采用去甲基化抑制剂5-Aza-CdR(5-氮-2'-脱氧胞苷)处理5637和BIU-87膀胱癌细胞,MSP和RT-PCR检测表明,hsa-miR-203的启动子在5637和BIU-87细胞中存在完全的甲基化,而5-Aza-CdR能逆转hsa-miR-203启动子的甲基化状态,恢复hsa-miR-203的表达。MTT法测定显示,5-Aza-CdR使5637和BIU-87膀胱癌细胞增殖受到明显抑制,并呈时间和剂量依赖性。同时,流式细胞仪检测显示,5-Aza-CdR使5637和BIU-87膀胱癌细胞周期阻滞于G_0/G_1期。因此,5-Aza-CdR能抑制膀胱癌细胞5637和BIU-87增殖并干扰其细胞周期。hsa-miR-203启动子异常甲基化是其在膀胱癌细胞中低表达的重要机制,5-Aza-CdR能逆转hsa-miR-203基因的甲基化,恢复hsa-miR-203的表达,为hsa-miR-203作为膀...     

DLC-1基因在MCF-7人乳腺癌细胞系中低表达的机制探究

目的：探究DLC-1基因在MCF-7人乳腺癌细胞系中低表达的机制。方法：应用甲基化特异性PCR（MSP）检测人乳腺癌细胞MCF-7的DLC-1基因甲基化状态,不同浓度的5-氮杂-2＇-脱氧胞嘧啶（5-Aza-CdR）处理人乳腺癌细胞MCF-7,RT-PCR及Real-time PCR定量检测用药前后细胞中DLC-1基因mRNA表达水平变化。结果：DLC-1基因启动子区CpG岛呈甲基化状态,经过5-Aza-CdR处理后,DLC-1基因启动子区呈去甲基化状态,并且其mRNA恢复表达。结论：抑癌基因DLC-1 CpG岛甲基化是导致该基因低表达的原因之一,5-Aza-CdR能逆转DLC-1基因甲基化状态。     

DLC-1 基因在MCF-7 人乳腺癌细胞系中低表达的机制探究

目的:探究DLC-1基因在MCF-7人乳腺癌细胞系中低表达的机制。方法:应用甲基化特异性PCR(MSP)检测人乳腺癌细胞MCF-7的DLC-1基因甲基化状态,不同浓度的5-氮杂-2’-脱氧胞嘧啶(5-Aza-CdR)处理人乳腺癌细胞MCF-7,RT-PCR及Real-time PCR定量检测用药前后细胞中DLC-1基因mRNA表达水平变化。结果:DLC-1基因启动子区CpG岛呈甲基化状态,经过5-Aza-CdR处理后,DLC-1基因启动子区呈去甲基化状态,并且其mRNA恢复表达。结论:抑癌基因DLC-1 CpG岛甲基化是导致该基因低表达的原因之一,5-Aza-CdR能逆转DLC-1基因甲基化状态。     

LATS1在食管鳞癌中的表达及启动子甲基化状态研究

在我们以前的研究中,在食管鳞癌细胞株中过表达大肿瘤抑制基因-1(large tumor suppressor kinase 1,LATS1)能够明显抑制细胞增殖、细胞迁移和侵袭,同时能够促进细胞凋亡。为了进一步研究LATS1基因在食管鳞状细胞癌发生发展中的作用以及可能的机制,我们在食管鳞癌组织与配对癌旁组织中,应用免疫组化检测LATS1基因蛋白质表达情况,应用荧光定量PCR(qRT-PCR)检测配对组织LATS1基因mRNA表达差异。甲基化特异性PCR(MSP)和亚硫酸氢盐测序法(BGS)检测食管鳞癌组织及细胞中LATS1基因的CpG岛甲基化状态。我们发现LATS1基因在癌旁组织中广泛表达,而癌组织中LATS1基因表达明显下调。结果表明LATS1在食管鳞癌中起到抑癌基因的作用,并且与肿瘤的临床分期相关,而其下调与CpG岛的高甲基化无关。在食管鳞癌细胞中过表达LATS1抑制细胞增殖、细胞迁移和侵袭,同时能够促进细胞凋亡。因此,LATS1基因值得进一步探索作为食管鳞癌生物标志物的可能用途和未来分子诊断和治疗的目标。     

NDRG2基因启动子甲基化与肺腺癌细胞中mRNA表达相关性的实验研究

目的:探讨肺腺癌细胞中NDRG2基因启动子甲基化状态及其与基因表达的关系。方法:甲基化焦磷酸测序技术检测启动子区域甲基化状态,荧光定量PCR技术检测不同药物浓度下培养细胞中NDRG2基因mRNA的表达水平,分析启动子区域甲基化与基因表达之间的关系。结果:在体外培养细胞中检测到NDRG2基因启动子区域呈现不同程度的甲基化,甲基化频率分别为肺癌A549细胞71.8%、GLC-82细胞86.1%、人脐静脉内皮ECV-304细胞36.8%、胃上皮GES-1细胞42.9%。NDRG2基因mRNA表达与其启动子甲基化程度成反比,甲基转移酶抑制剂5-杂氮-2-脱氧胞苷(5-Aza-CdR)作用于细胞后,A549和GLC-82细胞中NDRG2基因的mRNA转录明显上调,至72 h差异显著(P0.05)。结论:肺腺癌细胞中NDRG2基因启动子CpG岛存在高甲基化,甲基化程度与该基因的表达具有负相关性,5-Aza-CdR能在一定程度上提高NDRG2的转录水平。     

5-Aza-CdR对胶质瘤细胞生长及LRRC4基因异常甲基化的影响

LRRC4是一个新发现的胶质瘤抑瘤基因,它在多种胶质瘤细胞系和胶质瘤组织表达缺失或下调,前期研究结果表明胶质瘤细胞和组织中LRRC4的编码区未发生突变、缺失或重排.为了获得LRRC4作为胶质瘤抑瘤基因的进一步证据,采用去甲基化制剂5-Aza-CdR处理LRRC4表达缺失的SF126和SF767胶质瘤细胞,MSP和RT-PCR检测表明,LRRC4的启动子在表达缺失的SF126和SF767细胞存在完全的甲基化,而5-Aza-CdR能逆转LRRC4启动子的甲基化状态,恢复LRRC4的表达.MTf法测定显示,5-Aza-CdR使SF126和SF767胶质瘤细胞增殖受到明显抑制,并呈时间和剂量的依赖性.同时流式细胞仪检测显示,5-Aza-CdR使SF126和SF767胶质瘤细胞周期阻滞于G0/G1期.因此,5-Aza-CdR能抑制胶质瘤细胞SF126和SF767增殖并干扰其细胞周期,LRRC4启动子异常甲基化足其在胶质瘤细胞中表达缺失的重要机制,5-Aza-CdR能逆转LRRC4基因的甲基化,恢复LRRC4的表达,为LRRC4作为胶质瘤去甲基化治疗的靶标提供了科学依据.     

5-Aza-CdR对绒毛膜癌JEG-3细胞生长及Dnmt3a表达的影响

用不同浓度(1、4、8、16、32μmol/L)的DNA甲基化酶抑制剂5-Aza-CdR处理绒毛膜癌JEG-3细胞,显微镜下观察细胞形态的变化,MTT法检测5-Aza-CdR对JEG-3细胞增殖的抑制作用,流式细胞术检测5-Aza-CdR对JEG-3细胞凋亡的影响,Transwell小室检测JEG-3细胞侵袭能力的改变,进一步应用Real Time PCR及Western印迹检测5-Aza-CdR处理细胞后DNA甲基化转移酶3a(DNA methyltransferase 3a,Dnmt3a)基因及其蛋白的表达变化。研究结果显示,5-Aza-CdR能致细胞皱缩、细胞核聚集成块,可明显抑制细胞增殖,促进其凋亡,降低细胞侵袭力。5-Aza-CdR同时还可抑制Dnmt3a mRNA和其蛋白的表达。     

5-Aza-CdR对胶质瘤细胞生长及LRRC4基因异常甲基化的影响

LRRC4是一个新发现的胶质瘤抑瘤基因,它在多种胶质瘤细胞系和胶质瘤组织表达缺失或下调,前期研究结果表明胶质瘤细胞和组织中LRRC4的编码区未发生突变、缺失或重排．为了获得LRRC4作为胶质瘤抑瘤基因的进一步证据,采用去甲基化制剂5-Aza-CdR处理LRRC4表达缺失的SF126和SF767胶质瘤细胞,MSP和RT-PCR检测表明,LRRC4的启动子在表达缺失的SF126和SF767细胞存在完全的甲基化,而5-Aza-CdR能逆转LRRC4启动子的甲基化状态,恢复LRRC4的表达．MTT法测定显示,5-Aza-CdR使SF126和SF767胶质瘤细胞增殖受到明显抑制,并呈时间和剂量的依赖性．同时流式细胞仪检测显示,5-Aza-CdR使SF126和SF767胶质瘤细胞周期阻滞于G0/G1期．因此,5-Aza-CdR能抑制胶质瘤细胞SF126和SF767增殖并干扰其细胞周期,LRRC4启动子异常甲基化是其在胶质瘤细胞中表达缺失的重要机制,5-Aza-CdR能逆转LRRC4基因的甲基化,恢复LRRC4的表达,为LRRC4作为胶质瘤去甲基化治疗的靶标提供了科学依据．     

circPVT1通过miR-24-3p/let-7a-5p/FSCN1轴促进鼻咽癌细胞侵袭迁移

目的 鼻咽癌是一种来源于鼻咽上皮的恶性肿瘤,其临床特征之一是易发生淋巴转移,但是目前鼻咽癌转移的分子机制尚未阐明。circPVT1是由PVT1基因2号外显子反向拼接形成的环状RNA (circRNA),在多种肿瘤中表达上调,本文探讨了circPVT1在鼻咽癌侵袭迁移中的作用和分子机制。方法 通过RT-qPCR检测circPVT1及其下游miRNA和FSCN1在鼻咽癌细胞的表达情况,Transwell和划痕愈合实验检测circPVT1对鼻咽癌细胞侵袭迁移的影响,RNA pull-down实验检测circPVT1结合的miRNA,双荧光素酶报告实验检测miR-24-3p和let-7a-5p靶向抑制FSCN1 mRNA表达。结果 在鼻咽癌细胞中过表达circPVT1可以促进鼻咽癌细胞侵袭迁移,而敲低circPVT1则可以抑制鼻咽癌细胞的侵袭迁移。进一步研究发现,circPVT1可以通过竞争性吸附miR-24-3p和let-7a-5p,上调FSCN1的表达,从而促进鼻咽癌细胞的侵袭迁移。结论 circPVT1通过miR-24-3p/let-7a-5p/FSCN1轴促进鼻咽癌细胞侵袭迁移,证实c...     

5-氮胞苷对转化后间充质干细胞增殖、衰老及p16~(INK4a)表达的影响

目的观察5-氮胞苷对体外自发转化的间充质干细胞增殖、衰老及p16INK4a基因表达的影响。方法采用细胞计数、SA-β-gal染色、Western Blot和重硫酸盐修饰后测序(BSP)检测体外自发转化的大鼠间充质干细胞在不同浓度5-氮胞苷处理后增殖、衰老、p16INK4a表达及p16INK4a基因启动子区CpG岛甲基化水平的变化。结果细胞计数显示5-氮胞苷可剂量依赖性地抑制转化后间充质干细胞的增殖,但增殖受抑的细胞SA-β-gal染色仍呈阴性。BSP及Western Blot分析显示:转化后间充质干细胞p16INK4a基因启动子区CpG岛呈现高水平甲基化(87.30±2.39%)。5-氮胞苷可在一定程度上降低该基因的甲基化,使p16INK4a表达得以部分恢复;但即使是高浓度高达100μmol/L,5-氮胞苷也只能使p16INK4a基因甲基化降低到46.20±1.65%。结论 5-氮胞苷可显著抑制转化后间充质干细胞的增殖,但并不能促使这些细胞重新恢复衰老状态;其原因是5-氮胞苷单独作用不足以完全解除p16INK4a基因启动子区DNA的高甲基化。     

Silencing of death receptor and caspase-8 expression in small cell lung carcinoma cell lines and tumors by DNA methylation

Small cell lung cancer cell lines were resistant to FasL and TRAIL-induced apoptosis, which could be explained by an absence of Fas and TRAIL-R1 mRNA expression and a deficiency of surface TRAIL-R2 protein. In addition, caspase-8 expression was absent, whereas FADD, FLIP and caspases-3, -7, -9 and -10 could be detected. Analysis of SCLC tumors revealed reduced levels of Fas, TRAIL-R1 and caspase-8 mRNA compared to non-small cell lung cancer (NSCLC) tumors. Methylation-specific PCR demonstrated methylation of CpG islands of the Fas, TRAIL-R1 and caspase-8 genes in SCLC cell lines and tumor samples, whereas NSCLC samples were not methylated. Cotreatment of SCLC cells with the demethylating agent 5'-aza-2-deoxycytidine and IFNgamma partially restored Fas, TRAIL-R1 and caspase-8 expression and increased sensitivity to FasL and TRAIL-induced death. These results suggest that SCLC cells are highly resistant to apoptosis mediated by death receptors and that this resistance can be reduced by a combination of demethylation and treatment with IFNgamma.     

Hypermethylation of the gene promoter and enhancer region can regulate Fas expression and sensitivity in colon carcinoma

Expression of the cell surface receptor Fas is frequently lost or decreased during tumor progression in human colon carcinomas. The methylation status of a 583 bp CpG-rich region within the Fas promoter (-575 to +8) containing 28 CpG sites was determined in human colon carcinoma cell lines. In Caco(2) (no Fas expression), 82-93% of CpG sites were methylated, whereas none were methylated in GC(3)/c1 (high Fas expression). In RKO (intermediate level of Fas), a single CpG site, located at -548, was 100% methylated. The inhibitor of methylation, 5-aza-2'-deoxycytidine (5-azadC), upregulated Fas expression in four of eight cell lines, and sensitized RKO cells to recombinant FasL-induced apoptosis. The p53-binding region in the first intron of the Fas gene was partially methylated in Caco(2), and 5-azadC potentiated Ad-wtp53-induced upregulation of Fas expression. Methylation-specific PCR of the first intron detected partial methylation in four out of 10 colon carcinoma tumor samples in vivo. The data suggest that DNA hypermethylation is one mechanism that contributes to the downregulation of Fas expression and subsequent loss of sensitivity to Fas-induced apoptosis in colon carcinoma cells.     

Bcl-xL Silencing Induces Alterations in hsa-miR-608 Expression and Subsequent Cell Death in A549 and SK-LU1 Human Lung Adenocarcinoma Cells

Bcl-xL is an anti-apoptotic protein that is frequently found to be overexpressed in non-small cell lung cancer leading to an inhibition of apoptosis and poor prognosis. Recently, the role of miRNAs in regulating apoptosis and cell survival during tumorigenesis has become evident, with cancer cells showing perturbed expression of various miRNAs. In this study, we utilized miRNA microarrays to determine if miRNA dysregulation in bcl-xL silenced lung adenocarcinoma cells could be involved in regulating cell death. Short interfering RNA-based transfection of A549 and SK-LU1 lung adenocarcinoma cells was successful in inducing a reduction in bcl-xL expression levels, resulting in a decrease in cell viability. A total of 10 miRNAs were found to be significantly differentially expressed when compared between siRNA-transfected and non-transfected cells including hsa-miR-181a, hsa-miR-769-5p, hsa-miR-361-5p, hsa-miR-1304 and hsa-miR-608. When overexpression studies on hsa-miR-608 was performed via transfection of miRNA mimics, cell death was found to be induced in A549 and SK-LU1 cells in comparison to untreated cells. This effect was reversed when knockdown studies involving anti-sense inhibitors were introduced. Combination of siRNA based silencing of bcl-xL (siBcl-xL) followed by anti-sense inhibitor transfection led to a decrease in the apoptotic population of A549 and SK-LU1 cells in comparison to cells only treated with siBcl-xL, illustrating the connection between bcl-xL, hsa-miR-608 and cell death. Gene target prediction analysis implicated the PI3K/AKT, WNT, TGF-β, and ERK signaling pathways as targets of bcl-xL induced miRNA alterations. We have demonstrated that bcl-xL silencing in A549 and SK-LU1 cells leads to the occurrence of cell death through the dysregulation of specific miRNAs. This study also provides a platform for anti-sense gene therapy whereby miRNA expression can be exploited to increase the apoptotic properties in lung adenocarcinoma cells.     

Dynamic expression of viral and cellular microRNAs in infectious mononucleosis caused by primary Epstein-Barr virus infection in children

Background

Epstein-Barr virus (EBV) was the first virus identified to encode microRNAs (miRNAs). Both of viral and human cellular miRNAs are important in EBV infection. However, the dynamic expression profile of miRNAs during primary EBV infection was unknown. This study aimed to investigate the dynamic expression profile of viral and cellular miRNAs in infectious mononucleosis (IM) caused by primary EBV infection.

Methods

The levels of viral and cellular miRNAs were measured in fifteen pediatric IM patients at three different time-points. Fifteen healthy children who were seropositive for EBV were enrolled in the control group. Relative expression levels of miRNAs were detected by quantitative real-time PCR (qPCR) assay.

Results

EBV-miR-BHRF1-1, 1-2-3P, miR-BART13-1, 19-3p, 11-3P, 12–1, and 16–1 in IM patients of early phase were significantly higher than in healthy children. Most cellular miRNAs of B cells, such as hsa-miR-155-5p, ?34a-5p, ?18b-5p, ?181a-5p, and ?142-5p were up-regulated; while most of cellular miRNAs of CD8?+?T cells, such as hsa-miR-223, ?29c-3p, ?181a, ?200a-3p, miR-155-5p, ?146a, and ?142-5p were down-regulated in IM patients. With disease progression, nearly all of EBV-miRNAs decreased, especially miR-BHRF1, but at a slower rate than EBV DNA loads. Most of the cellular miRNAs of B cells, including hsa-miR-134-5p, ?18b-5p, ?34a-5p, and -196a-5p increased with time. However, most of the cellular miRNAs of CD8?+?T cells, including hsa-let-7a-5p, ?142-3p, ?142-5p, and ?155-5p decreased with time. Additionally, hsa-miR-155-5p of B cells and hsa-miR-18b-5p of CD8+ T cells exhibited a positive correlation with miR-BHRF1-2-5P and miR-BART2-5P (0.96?≤?r?≤?0.99, P?<?0.05). Finally, hsa-miR-181a-5p of B cells had positive correlation with miR-BART4-3p, 4-5P, 16–1, and 22 (0.97?≤?r?≤?0.99, P?<?0.05).

Conclusions

Our study is the first to describe the expression profile of viral and cellular miRNAs in IM caused by primary EBV infection. These results might be the basis of investigating the pathogenic mechanism of EBV-related diseases and bring new insights into their diagnosis and treatment.

     

Upregulation of hsa-miR-196a-5p is associated with MIR196A2 methylation and affects the malignant biological behaviors of glioma

Hsa-miR-196a-5p is involved in tumorigenesis and progression. However, the driving factors for hsa-miR-196a-5p overexpression and its correlation with the clinicopathological features and prognosis of patients remain unclear in glioma. Thus, this study aimed to investigate the prognostic value of hsa-miR-196a-5p and its correlation with MIR196A2 methylation in glioma. We observed that hsa-miR-196a-5p expression was upregulated in glioma. Next, 112 patients were divided into high (n = 56) and low (n = 56) hsa-miR-196a-5p expression groups. The chi-square test showed that hsa-miR-196a-5p expression was significantly related to age, WHO grade, histopathology, IDH mutation status, and 1p/19q codeletion. Univariate and multivariate Cox regression analyses showed that hsa-miR-196a-5p expression was an independent prognostic factor. GO and KEGG enrichment analyses showed that hsa-miR-196a-5p may be involved in the MAPK signaling, focal adhesion and cancer-related pathways. Compared with the normal astrocyte cell line, glioma cell lines had an unregulated MIR196A2 methylation level, which was confirmed by TCGA data. The hypermethylated CpG sites of MIR196A2 were mainly concentrated in the gene body region, which was significantly associated with hsa-miR-196a-5p overexpression. Kaplan-Meier curves revealed that MIR196A2 hypermethylation was a poor prognostic factor. These findings suggest that hsa-miR-196a-5p overexpression may be involved in malignant biological behaviors, and MIR196A2 hypermethylation of the gene body was significantly associated with hsa-miR-196a-5p overexpression, which was a poor prognostic factor of glioma. Therefore, MIR196A2 hypermethylation may act as an early marker of prognosis of patients with glioma.     

Hsa-miR-34a-5p reverses multidrug resistance in gastric cancer cells by targeting the 3′-UTR of SIRT1 and inhibiting its expression

Multidrug resistance (MDR) is a major obstacle to chemotherapy, which leads to ineffective chemotherapy, an important treatment strategy for gastric cancer (GC). The abnormality of microRNAs (miRNAs) is critical to the occurrence and progression of MDR in various tumors. In this study, hsa-miR-34a-5p was found to be decreased in multidrug resistant GC cells SGC-7901/5-Fluorouracil (SGC-7901/5-Fu) compared to the parental SGC-7901 cells. Overexpression of hsa-miR-34a-5p in SGC-7901/5-Fu cells promoted apoptosis and decreased migration and invasiveness after chemotherapy. In addition, overexpression of hsa-miR-34a-5p suppressed the growth of drug-resistant tumor in vivo. The mechanism of the effects of hsa-miR-34a-5p could include the regulation of the expression of Sirtuin 1 (SIRT1), P-glycoprotein (P-gp) or Multidrug resistance-related protein 1 (MRP1) through direct binding to the 3′-untranslated region (UTR) of SIRT1. Functional gain-and-loss experiments indicated that hsa-miR-34a-5p enhances the chemotherapy sensitivity of MDR GC cells by inhibiting SIRT1, P-gp and MRP1. In conclusion, hsa-miR-34a-5p can reverse the MDR of GC cells by inhibiting the expression of SIRT1, P-gp or MRP1.     

MicroRNA expression signatures of bladder cancer revealed by deep sequencing

Background

MicroRNAs (miRNAs) are a class of small noncoding RNAs that regulate gene expression. They are aberrantly expressed in many types of cancers. In this study, we determined the genome-wide miRNA profiles in bladder urothelial carcinoma by deep sequencing.

Methodology/Principal Findings

We detected 656 differentially expressed known human miRNAs and miRNA antisense sequences (miRNA*s) in nine bladder urothelial carcinoma patients by deep sequencing. Many miRNAs and miRNA*s were significantly upregulated or downregulated in bladder urothelial carcinoma compared to matched histologically normal urothelium. hsa-miR-96 was the most significantly upregulated miRNA and hsa-miR-490-5p was the most significantly downregulated one. Upregulated miRNAs were more common than downregulated ones. The hsa-miR-183, hsa-miR-200b∼429, hsa-miR-200c∼141 and hsa-miR-17∼92 clusters were significantly upregulated. The hsa-miR-143∼145 cluster was significantly downregulated. hsa-miR-182, hsa-miR-183, hsa-miR-200a, hsa-miR-143 and hsa-miR-195 were evaluated by Real-Time qPCR in a total of fifty-one bladder urothelial carcinoma patients. They were aberrantly expressed in bladder urothelial carcinoma compared to matched histologically normal urothelium (p<0.001 for each miRNA).

Conclusions/Significance

To date, this is the first study to determine genome-wide miRNA expression patterns in human bladder urothelial carcinoma by deep sequencing. We found that a collection of miRNAs were aberrantly expressed in bladder urothelial carcinoma compared to matched histologically normal urothelium, suggesting that they might play roles as oncogenes or tumor suppressors in the development and/or progression of this cancer. Our data provide novel insights into cancer biology.     

Cytotoxic-T-lymphocyte human papillomavirus type 16 E5 peptide with CpG-oligodeoxynucleotide can eliminate tumor growth in C57BL/6 mice

Previously, we identified human papillomavirus type 16 (HPV-16) E5 as a tumor rejection antigen that can induce cytotoxic T lymphocytes (CTLs) to protect against tumor growth (D. W. Liu et al., J. Virol. 74:9083-9089, 2000). In the present study, we further mapped the CTL epitope of E5 protein by analyzing E5-specific CD8(+) gamma interferon-positive (IFN-gamma(+)) double-positive cells in C57BL/6 mice with flow cytometry. The results showed the region spanning amino acids 25 to 33 (VCLLIRPLL) contained the potential D(b)-restricted CTL epitope. Subsequently, to determine whether peptide E5 25-33-based vaccination could induce E5-specific CTL activity, syngeneic animals received E5 25-33 emulsified with either CpG oligodeoxynucleotide (CpG ODN 1826) or Freund's adjuvant, and the growth of the tumors was monitored. The results showed that although both adjuvants induced E5-specific CD8(+) IFN-gamma(+) T cells and eradicated E5-containing tumor growth, CpG ODN was found to stimulate stronger CTL response than Freund's adjuvant. We also compared the immune response of the effector/memory/recall phase induced by E5 25-33 peptide or by E5 protein that was synthesized in vivo by adenovirus-based E5 gene delivery. E5 25-33 peptide plus CpG ODN was shown to be a superior vaccine compared to the adenovirus-based E5 gene. Interestingly, their chronological patterns of immune response were similar, suggesting that E5 25-33 is a major CTL peptide of E5 protein.