Sonic hedgehog pathway is essential for maintenance of cancer stem-like cells in human gastric cancer

Abnormal activation of the Sonic hedgehog (SHH) pathway has been described in a wide variety of human cancers and in cancer stem cells (CSCs), however, the role of SHH pathway in gastric CSCs has not been reported. In this study, we investigated the possibility that abnormal activation of the SHH pathway maintained the characteristics of gastric CSCs. First, we identified cancer stem-like cells (CSLCs) from human gastric cancer cell lines (HGC-27, MGC-803 and MKN-45) using tumorsphere culture. Compared with adherent cells, the floating tumorsphere cells had more self-renewing capacity and chemoresistance. The cells expressing CSCs markers (CD44, CD24 and CD133) were also significantly more in tumorsphere cells than in adherent cells. More importantly, in vivo xenograft studies showed that tumors could be generated with 2×10⁴ tumorsphere cells, which was 100-fold less than those required for tumors seeding by adherent cells. Next, RT-PCR and Western blot showed that the expression levels of Ptch and Gli1 (SHH pathway target genes) were significantly higher in tumorsphere cells than in adherent cells. The results of quantitative real-time PCR were similar to those of RT-PCR and Western blot. Further analysis revealed that SHH pathway blocked by cyclopamine or 5E1 caused a higher reduction in self-renewing capacity of HGC-27 tumorsphere cells than that of adherent cells. We also found that SHH pathway blocking strongly enhanced the efficacy of chemotherapeutic drugs in HGC-27 tumorsphere cells in vitro and in vivo but had no significant effect in adherent cells. Finally, we isolated the tumorspheres from gastric cancer specimen, these cells also had chemoresistance and tumorigenic capacity, and SHH pathway maintained the gastric CSLCs characteristics of tumorsphere cells from primary tumor samples. In conclusion, our data suggested that SHH pathway was essential for maintenance of CSLCs in human gastric cancer.     

Pancreatic Cancer Stem-like Cells Display Aggressive Behavior Mediated via Activation of FoxQ1

Subpopulations of cancer stem cells (CSCs) or cancer stem-like cells (CSLCs) have been identified from most tumors, including pancreatic cancer (PC), and the existence of these cells is clinically relevant. Emerging evidence suggests that CSLCs participate in cell growth/proliferation, migration/invasion, metastasis, and chemo-radiotherapy resistance, ultimately contributing to poor clinical outcome. However, the pathogenesis and biological significance of CSLCs in PC has not been well characterized. In the present study, we found that isolated triple-marker-positive (CD44⁺/CD133⁺/EpCAM⁺) cells of human PC MiaPaCa-2 and L3.6pl cells behave as CSLCs. These CSLCs exhibit aggressive behavior, such as increased cell growth, migration, clonogenicity, and self-renewal capacity. The mRNA expression profiling analysis showed that CSLCs (CD44⁺/CD133⁺/EpCAM⁺) exhibit differential expression of more than 1,600 mRNAs, including FoxQ1, compared with the triple-marker-negative (CD44⁻/CD133⁻/EpCAM⁻) cells. The knockdown of FoxQ1 by its siRNA in CSLCs resulted in the inhibition of aggressive behavior, consistent with the inhibition of EpCAM and Snail expression. Mouse xenograft tumor studies showed that CSLCs have a 100-fold higher potential for tumor formation and rapid tumor growth, consistent with overexpression of CSC-associated markers/mediators, including FoxQ1, compared with its parental MiaPaCa-2 cells. The inhibition of FoxQ1 attenuated tumor formation and growth, and expression of CSC markers in the xenograft tumor derived from CSLCs of MiaPaCa-2 cells. These data clearly suggest the role of differentially expressed genes in the regulation of CSLC characteristics, further suggesting that targeting some of these genes could be important for the development of novel therapies for achieving better treatment outcome of PC.     

Regulation of glycosyltransferases and Lewis antigens expression by IL-1β and IL-6 in human gastric cancer cells

Inflammation of stomach mucosa has been postulated as initiator of gastric carcinogenesis and the presence of pro-inflammatory cytokines can regulate specific genes involved in this process. The cellular expression pattern of glycosyltransferases and Lewis antigens detected in the normal mucosa changed during the neoplassic transformation. The aim of this work was to determine the regulation of specific fucosyltransferases and sialyltransferases by IL-1β and IL-6 pro-inflammatory cytokines in MKN45 gastric cancer cells. IL-1β induced significant increases in the mRNA levels of FUT1, FUT2 and FUT4, and decreases of FUT3 and FUT5. In IL-6 treatments, enhanced FUT1 and lower FUT3 and FUT5 mRNA expression were detected. No substantial changes were observed in the levels of ST3GalIII and ST3GalIV. The activation of FUT1, FUT2 and FUT4 by IL-1β is through the NF-κB pathway and the down-regulation of FUT3 and FUT5 by IL-6 is through the gp130/STAT-3 pathway, since they are inhibited specifically by panepoxydone and AG490, respectively. The levels of Lewis antigens after IL-1β or IL-6 stimulation decreased for sialyl-Lewis x, and no significant differences were found in the rest of the Lewis antigens analyzed, as it was also observed in subcutaneous mice tumors from MKN45 cells treated with IL-1β or IL-6. In addition, in 61 human intestinal-type gastric tumors, sialyl-Lewis x was highly detected in samples from patients that developed metastasis. These results indicate that the expression of the fucosyltransferases involved in the synthesis of Lewis antigens in gastric cancer cells can be specifically modulated by IL-1β and IL-6 inflammatory cytokines.     

Aberrant overexpression of EZH2 and H3K27me3 serves as poor prognostic biomarker for esophageal squamous cell carcinoma patients

It has been reported that the trimethylation of histone 3 on lysine 27 (H3K27me3) is required for enhancer of zeste homology 2 (EZH2)-mediated repression of various genes essential for tumorigenesis and tumor development. Here, we reported the expression of EZH2 and H3K27me3 in esophageal squamous cell carcinoma (ESCC) specimens was higher than the pericarcinoma esophageal specimens. Their expression was positively associated with the poor prognosis of ESCC patients. EZH2 expression, histological grade and distant lymph node metastasis were all independent factors for poor prognosis of ESCC. In addition, enforced expression of EZH2 in esophageal cancer-derived cells could increase the overall H3K27me3 level. Our results suggested the expression of EZH2 and H3K27me3 could serve as biomarkers in the prediction of ESCC patients’ survival and ESCC metastasis.     

β-catenin在食管鳞癌中的异常表达及临床意义

目的探讨β-catenin基因在食管鳞状细胞癌(Esophageal squamous cell carcinoma,ESCC)中的表达及其意义。方法免疫组化法检测65例ESCC及20例因ESCC手术切除的远切端正常食管黏膜组织中β-catenin的表达及定位,分析其与临床病理学参数的关系;RT-PCR检测31例新鲜ESCC及相应的远切断正常食管黏膜组织中β-catenin mRNA的表达。结果免疫组化结果显示:在20例因ESCC手术切除的远切端正常食管黏膜组织中,β-catenin主要位于胞膜;在65例ESCC组织中,β-catenin的胞质积累阳性率为63.1%,胞核积累阳性率为30.8%;β-catenin的胞质/核积累与淋巴结转移相关(P=0.005),但与患者的年龄、性别、肿瘤的分化程度及浸润深度等无关。RT-PCR结果显示:在31例ESCC及相应的远切端正常食管黏膜组织中,均检测到β-catenin mRNA的表达,与相应的远切端正常食管黏膜组织比较,癌组织中β-catenin基因mRNA的表达水平明显升高(P=0.037),其中表达升高的21例,占67.7%,表达无明显差异的8例,占25.8%,表达降低的2例,占6.5%。结论在ESCC中存在β-catenin mRNA表达水平的升高以及β-catenin蛋白的异常胞质/胞核积累,并与淋巴结转移有关。     

食管鳞癌与腺癌差异基因表达的对比分析

目的：研究食管鳞癌（esophageal squamous cell carcinoma,ESCC）与食管腺癌（esophageal adenocarcinoma,EAC）的基因差异表达,探讨ESCC与EAC发生发展的基因学基础。方法：选取8例ESCC和8例EAC组织抽提mRNA,应用cDNA芯片技术通过芯片杂交、生物信息学处理,找出两者间差异表达基因。结果：采用BioStarH-40芯片发现差异表达基因541条,差异表达基因占13．8％,其中表达增强309条（显著增强73条）,表达降低232条（显著降低61条）。结论：ESCC与EAC基因表达比较,差异有统计学意义,这些差异可能在两类肿瘤不同的生物学行为中起重要作用。     

长链非编码RNA BANCR在食管鳞癌中的表达及对细胞增殖和侵袭能力的影响

目的:探索长链非编码RNA BANCR与食管鳞癌(esophageal squamous cell carcinoma ESCC)临床病理特征以及预后的关系,以及对于ESCC细胞增殖,迁移和侵袭能力的影响。方法:使用实时荧光定量PCR(q RT-PCR)技术检测ESCC组织及多个细胞系中BANCR的表达水平,分析其与临床病理特征及预后的关联,用小干扰RNA(si RNA)干扰BANCR后用CCK8法检测其对ESCC细胞生长的影响,使用transwell法检测对细胞侵袭和转移能力的影响。结果:相对于癌旁组织,有86%(123/142)的癌组织中BANCR表达量升高,BANCR在癌组织中的相对表达水平与肿瘤的组织学分级、TNM分期和淋巴结转移数量相关(P均0.05)。BANCR在本文涉及的八株ESCC细胞中的表达量均高于正常食管上皮细胞(Het1A)。在TE10和KYSE30细胞中敲降BANCR后可明显降低细胞生长速率,并抑制细胞的侵袭和迁移能力(P0.01)。结论:BANCR在ESCC组织和细胞中表达显著上调。并能增强ESCC细胞的增殖和侵袭能力,有希望成为一种新的辅助ESCC早期诊断和预后判断的肿瘤分子标志物。     

FUT family mediates the multidrug resistance of human hepatocellular carcinoma via the PI3K/Akt signaling pathway

The fucosyltransferase (FUT) family is the key enzymes in cell-surface antigen synthesis during various biological processes such as tumor multidrug resistance (MDR). The aim of this work was to analyze the alteration of FUTs involved in MDR in human hepatocellular carcinoma (HCC) cell lines. Using mass spectrometry (MS) analysis, the composition profiling of fucosylated N-glycans differed between drug-resistant BEL7402/5-FU (BEL/FU) cells and the sensitive line BEL7402. Further analysis of the expressional profiles of the FUT family in three pairs of parental and chemoresistant human HCC cell lines showed that FUT4, FUT6 and FUT8 were predominant expressed in MDR cell lines. The altered levels of FUT4, FUT6 and FUT8 were responsible for changed drug-resistant phenotypes of BEL7402 and BEL/FU cells both in vitro and in vivo. In addition, regulating FUT4, FUT6 or FUT8 expression markedly modulated the activity of the phosphoinositide 3 kinase (PI3K)/Akt signaling pathway and MDR-related protein 1 (MRP1) expression. Inhibition of the PI3K/Akt pathway by its specific inhibitor wortmannin, or by Akt small interfering RNA (siRNA), resulted in decreased MDR of BEL/FU cells, partly through the downregulation of MRP1. Taken together, our results suggest that FUT4-, FUT6- or FUT8-mediated MDR in human HCC is associated with the activation of the PI3K/Akt pathway and the expression of MRP1, but not of P-gp, indicating a possible novel mechanism by which the FUT family regulates MDR in human HCC.     

Proteomics-based identification of autoantibody against CDC25B as a novel serum marker in esophageal squamous cell carcinoma

This study was aimed to identify tumor proteins that elicit a humoral response in patients with esophageal squamous cell carcinoma (ESCC). Autologous sera of 15 newly diagnosed patients with ESCC and age- and gender-matched 15 healthy controls were analyzed individually for antibody-based reactivity against proteins from 15 homogenized ESCC tissue mixture resolved by two-dimensional PAGE. One protein spot, which reacted with sera from ESCC patients but not with those from controls, was identified to be CDC25B by mass spectrometry and Western blotting. High expression of CDC25B was detected in ESCC cell lines and primary tumor tissues, but not in normal esophageal tissues. In addition, CDC25B expression was significantly higher in tumor tissue of patients with sera positive CDC25B-Abs than that of patients without CDC25B-Abs. Finally, anti-CDC25B antibodies were readily detectable in sera from 45 of 124 (36.29%) patients with ESCC, 13 of 150 (8.67%) patients with other types of cancer and 0 of 102 (0%) of healthy individuals. Thus, CDC25B autoantibodies may have clinical utility in ESCC screening and diagnosis.     

Targeting CD276 by CAR-T cells induces regression of esophagus squamous cell carcinoma in xenograft mouse models

Esophageal cancer, including esophageal squamous cell carcinoma (ESCC) and esophageal adenocarcinoma (EAC), has a poor prognosis and limited therapeutic options. Chimeric antigen receptor (CAR)-T cells represent a potential ESCC treatment. In this study, we examined CD276 expression in healthy and esophageal tumor tissues and explored the tumoricidal potential of CD276-targeting CAR-T cells in ESCC. CD276 was strongly and homogenously expressed in ESCC and EAC tumor lesions but mildly in healthy tissues, representing a good target for CAR-T cell therapy. We generated CD276-directed CAR-T cells with a humanized antigen-recognizing domain and CD28 or 4–1BB co-stimulation. CD276-specific CAR-T cells efficiently killed ESCC tumor cells in an antigen-dependent manner both in vitro and in vivo. In patient-derived xenograft models, CAR-T cells induced tumor regression and extended mouse survival. In addition, CAR-T cells generated from patient T cells demonstrated potent cytotoxicity against autologous tumor cells. Our study indicates that CD276 is an attractive target for ESCC therapy, and CD276-targeting CAR-T cells are worth testing in ESCC clinical trials.     

Bmi-1 confers adaptive radioresistance to KYSE-150R esophageal carcinoma cells

Radiotherapy (RT) is a major modality of cancer treatment. However, tumors often acquire radioresistance, which causes RT to fail. The exact mechanisms by which tumor cells subjected to fractionated irradiation (FIR) develop an adaptive radioresistance are largely unknown. Using the radioresistant KYSE-150R esophageal squamous cell carcinoma (ESCC) model, which was derived from KYSE-150 parental cells using FIR, the role of Bmi-1 in mediating the radioadaptive response of ESCC cells to RT was investigated. The results showed that the level of Bmi-1 expression was significantly higher in KYSE-150R cells than in the KYSE-150 parental cells. Bmi-1 depletion sensitized the KYSE-150R cells to RT mainly through the induction of apoptosis, partly through the induction of senescence. A clonogenic cell survival assay showed that Bmi-1 depletion significantly decreased the radiation survival fraction in KYSE-150R cells. Furthermore, Bmi-1 depletion increased the generation of reactive oxygen species (ROS) and the expression of oxidase genes (Lpo, Noxo1 and Alox15) in KYSE-150R cells exposed to irradiation. DNA repair capacities assessed by γ-H2AX foci formation were also impaired in the Bmi-1 down-regulated KYSE-150R cells. These results suggest that Bmi-1 plays an important role in tumor radioadaptive resistance under FIR and may be a potent molecular target for enhancing the efficacy of fractionated RT.     

调控肿瘤上皮–间质转化及肿瘤干细胞样特性的信号通路串话

上皮–间质转化（epithelial-mesenchymal transition,EMT）是上皮来源肿瘤细胞获得侵袭和转移能力的重要生物学过程。肿瘤干细胞样细胞（cancer stem-like cells,CSLCs）在肿瘤发生、侵袭、转移和复发中亦起着关键作用。近年发现,EMT与肿瘤干细胞样特性获得存在密切关联,二者通过TGF-β、Wnt/β-catenin、Notch、Hedgehog、FGF、PI3k/Akt等多种信号通路及通路间的信号串话而交互作用,共同影响着肿瘤发生、侵袭及转移,了解调控EMT/CSLCs关键信号分子的功能及相互作用对于肿瘤靶向治疗具有重要意义。     

Engineering Chinese hamster ovary cells to maximize effector function of produced antibodies using FUT8 siRNA

We explored the possibility of converting established antibody-producing cells to cells producing high antibody-dependent cellular cytotoxicity (ADCC) antibodies. The conversion was made by constitutive expression of small interfering RNA (siRNA) against alpha1,6 fucosyltransferase (FUT8). We found two effective siRNAs, which reduce FUT8 mRNA expression to 20% when introduced into Chinese hamster ovary (CHO)/DG44 cells. Selection for Lens culinaris agglutinin (LCA)-resistant clones after introduction of the FUT8 siRNA expression plasmids yields clones producing highly defucosylated (approximately 60%) antibody with over 100-fold higher ADCC compared to antibody produced by the parental cells (approximately 10% defucosylated). Moreover, the selected clones remain stable, producing defucosylated antibody even in serum-free fed-batch culture. Our results demonstrate that constitutive FUT8 siRNA expression can control the oligosaccharide structure of recombinant antibody produced by CHO cells to yield antibodies with dramatically enhanced ADCC.     

不同发育时期小鼠胚泡表面Lewis寡糖抗原的表达

在胚泡表面表达的Lewis寡糖抗原 (LewisX ,LewisY)在胚胎发育以及着床过程中起重要作用 .应用免疫印迹和免疫荧光等方法对着床前小鼠胚泡表面的Lewis寡糖抗原进行分析 .结果发现 :小鼠胚泡LewisX寡糖蛋白有 2 7kD、2 9kD、6 8kD和 80kD 4种 ,LewisY寡糖蛋白有 70kD和 90kD 2种 ;2种寡糖抗原均在 8细胞时期开始表达 ,其中 ,LewisY寡糖抗原在胚泡表面的表达持续升高 ,直至胚泡着床 ;而LewisX寡糖抗原的表达则在桑椹期后逐渐降低 ,但仍在胚胎期的囊胚腔侧的顶端可见有部分表达 ;应用RT PCR的分析结果显示 ,LewisX合成的关键糖基转移酶FUT9基因在 4细胞及桑椹期高表达 ,到胚泡期虽然强度明显减弱 ,但仍有表达 ;而LewisY合成关键酶FUT1基因在 4细胞未见表达 ,在桑椹和胚泡阶段均有表达并逐渐升高 ,表达趋势与相应寡糖的表达趋势基本一致 .结果说明 ,在小鼠胚泡表面表达的Lewis寡糖抗原的表达受到相应糖基转移酶基因转录的调控