P-glycoprotein expression induced by glucose depletion enhanced the chemosensitivity in human hepatocellular carcinoma cell-lines

Chemoresistance in cancer cells is frequently associated with an over-expression of the P-glycoprotein (P-gp). The expression of P-gp can be regulated as the cells encounter a number of chemical, physical or environmental stimuli. In this study, P-gp was found gradually expressed in a human hepatocellular carcinoma (HCC) QGY-7703 cells after 48 h of culturing in glucose-free medium. This phenomenon disappeared after the removal of glucose deprivation culture conditions. Mdr1-cDNA isolated from the cell line cultured in glucose-free conditions (namely QGY-7703G), was transiently transformed into the parent QGY-7703 cells, and multi-drug resistance was eventually induced. Results from XTT cytotoxicity assays indicated that the mdr1 gene was functional and the P-gp could restore the QGY-7703 cell's ability to withstand high concentrations of a number of chemotherapeutic agents. A P-gp inhibitor, verapamil, could completely reverse the cellular drug resistance when applied to the QGY-7703G cells. Our results indicated that an alteration of a specific state in cells caused by an external stimulus in vitro may lead to an expression of stress proteins (e.g. P-gp), which may enhance the cells' survival in adverse conditions. The expressed P-gp induced by glucose deprivation has a functional role in affecting the chemosensitivity in HCC QGY-7703G cells. Inhibition of P-gp activity may enhance the effect of the cancer cells towards cancer chemotherapy.     

MKi67-siRNA可抑制QGY-7703细胞的生长

为了探讨MKI67在肝癌细胞发生发展中的作用,采用实时定量 PCR 方法检测人肝细胞癌 QGY 7703 细胞中MKI67 基因表达水平, 以及 MKI67在肝细胞癌组织和癌旁正常组织中的表达情况,设计并合成针对MKI67 的siRNA,利用脂质体转染法将其转入QGY-7703 细胞内,通过MTT和细胞集落形成实验观察MKI67-siRNA 对QGY-7703细胞生长活性和增殖能力的影响.实时定量PCR结果表明,MKI67在肝细胞癌组织中的表达水平明显高于癌旁正常组织（P< 0.01）. MTT和细胞集落形成实验结果显示,转染MKI67-siRNA 的QGY-7703细胞生长活性和集落形成率明显低于对照组（P< 0.01）.由此得出结论：MKI67 在肝癌细胞系QGY-7703细胞中的表达水平较高,且它在肝癌组织中的表达水平明显上调. 同时,MKI67-siRNA 可以有效抑制QGY-7703细胞的生长活性和增殖能力,提示MKI67可能与肝细胞癌的发生、发展相关.     

Inhibitory effect of parvovirus H—1 on the formation of colonies of human hepatoma cell line in vitro and its tumors in nude mice

The inhibitory effect of parvovirus H-1 on the colonyforming ability.in vitro of QGY-7703,a cultured human hepatoma cell line,and on the formation and growth of its tumors in nude mice was studied.With higher multiplicity of infection(MOI) of H-1 given,survival of the QGY-7703 cells was found to be decreased.H-1 DNA amplification level at 30h postinfection(p.i.) was detected to be 7.4 times higher than that at 2h by dispersed cells assay,while the cells were delayed to enter into S phase.Plaques were formed in the indicator cells(new-born human kidney cell line,NBK) by progeny H-1 virus particles released from the infected QGY-7703 cells by infectious cell center assay.The formation of tumors in nude mice by QGY-7703 cells which were injected s c at 2h postinfection was observed to by prevented in 2 proups with given MOI 25 and 50.The tumor growth of MOI 10 group occurred at a lower exponential rate than that of control,after a 20d latent period.It was evident that parvovirus H-1 exhibited a direct inhibitory effect on the formation and growth of human hepatoma cells in vivo as well as in vitro.     

Proteomic investigation of taxol and taxotere resistance and invasiveness in a squamous lung carcinoma cell line

Pulse selections on a chemotherapy naive squamous lung carcinoma cell line, SKMES-1, with clinically relevant concentrations of taxanes (taxol or taxotere) resulted in the development of a stable taxotere-resistant variant, SKMES-1-Taxotere and an unstable taxol-resistant variant, SKMES-1-Taxol. Both variants exhibited increased invasiveness in vitro. The unstable nature of SKMES-1-Taxol facilitated looking at factors involved in loss of taxol resistance and increased invasion. The taxotere and taxol-resistant cell lines were 5.9-fold and 12.5-fold resistant to taxotere and taxol respectively. Alterations in expression of/or point mutations in tubulin, the main target of taxanes, is a major mechanism or resistance. However, alterations in expression of beta tubulin were not consistent in the taxane-selected variants. Cross-resistance to adriamycin, vincristine and etoposide (VP-16) was consistent with overexpression of P-glycoprotein (P-gp). However, P-gp alone is not sufficient to confer the complete multiple drug resistance phenotype as all cell lines exhibited cross-resistance to 5-Fluorouracil (5-FU) and more than one mechanism has been linked to taxane resistance. There was no correlation between the fall of taxol resistance in SKMES-1-Taxol and P-gp expression indicating the loss in resistance to be independent of P-gp expression. Furthermore, resistance to the other drugs was not unstable in SKMES-1-Taxol suggesting some parallel mechanisms of resistance. Two-dimensional electrophoresis coupled with matrix assisted laser desorption ionization-time of flight (MALDI-TOF) mass spectrometry was used to identify alterations in expression of specific proteins associated with taxane resistance. A large number of differentially regulated proteins were identified in the resistant and invasive variants affecting cellular processes including stress response, protein turnover and cytoskeleton proteins.     

AFP的亚细胞定位及对肿瘤细胞生长的影响

目的观察甲胎蛋白（AFP）在不同肿瘤细胞中的亚细胞定位及对肿瘤细胞生长的影响。方法运用免疫荧光的方法观察内源性AFP在HeI。a细胞、QGY-7703细胞、MCF-7细胞中的亚细胞定位。将构建的表达AFP的质粒pcDNA3-AFP及AFP腺病毒siRNA干涉载体Adv—AFPsiRNA作用于QGY-7703细胞,MCF-7细胞,运用M1Tr,集落形成实验检测细胞增殖状况。结果免疫荧光显示,内源性的AFP在HeLa细胞、QGY-7703细胞、MCF-7细胞均只在细胞质中表达。pcDNA3-AFP使QGY-7703的细胞活性增加了2l％（P〈0．05）及集落形成能力增加了32％（P〈0．01）,MCF-7实验组比对照组细胞活性降低了30％（P〈0．01）．克隆形成能力降低82％（P〈0．01）。Adv—AFPsiRNA使QGY-7703的细胞活性降低了22％（P〈0．05）,平均克隆形成能力降低52％（P〈0．01）,MCF-7细胞活性提高了24．5％（P〈0．05）,克隆形成能力提高了89％（P〈O．01）。结论内源性的AFP只在细胞质中表达。AFP能促进QGY-7703细胞的增殖及克隆形成能力,而在MCF-7细胞中发挥相反的作用。腺病毒介导的内源性的AFP表达的下调能降低QGY-7703的增殖,却增加了MCF-7的细胞活性及克隆形成能力。     

Some differentiating effects of selenium on the cultured human hepatoma cells and human pulmonary adenocarcinoma cells in vitro

Two human hepatoma cell lines, QGY-7703 and SMMC-7721, and two human pulmonary adenocarcinoma cell lines, LTEP-a-2 and SPC-A-1, were found to respond to 1 μg/mL Na₂SeO₃, 24 h, in-vitro treatment by decreasing its confluent saturation density. The same treatment was found to cause an increase in the adhesiveness of cells measured as resistance to detachment by trypsin/EDTA. The pathological features of tumors after heterotransplantation of treated and untreated cells were similar, but the size of tumor grown from treated cells was much smaller.     

MicroRNA-142-3p, a new regulator of RAC1, suppresses the migration and invasion of hepatocellular carcinoma cells

RAC1 regulates a diverse array of cellular events including migration and invasion. MicroRNAs (miRNAs) have a key role in the regulation of gene expression. In this study, we demonstrated that microRNA-142-3p (miR-142-3p) acted as a negative regulator of human RAC1. Overexpression of miR-142-3p decreased RAC1 mRNA and protein levels. Moreover, the overexpression of miR-142-3p suppressed, while blocking of miR-142-3p increased colony formation, migration and invasion in hepatocellular carcinoma (HCC) cell lines (QGY-7703 and SMMC-7721). RAC1 overexpression without the 3'untranslated region abolished the effect of miR-142-3p in the QGY-7703 and SMMC-7721 cells. These results demonstrated that miR-142-3p directly and negatively regulates RAC1 in HCC cells, which highlights the importance of miRNAs in tumorigenesis.     

人肝癌细胞p53基因的表达及其对细小病毒H-1的敏感性

本文利用单链构象多态性分析,17号染色体短臂等位基因杂合性分析,Northern印迹,免疫沉淀,p53基因第7外显子酶切等技术检测了两个中国人肝癌细胞系SMMC-7721,YY-8103和一个自发转化的人肝细胞系L-02的p53基因结构与表达。实验表明,这三个细胞系中没有出现17号染色体短臂等位基因杂合性缺失,第4—9外显子也没发生突变,但其mRNA和蛋白表达水平很低。利用MTT比色分析法研究了这三个细胞系和其他已知p53基因背景的八个人肝癌细胞系(QGY-7703、PLC/PRF/5、Huh-7、Hep3B、FOCUS、Tong/ HCC、SK-Hep-1、HepG2)对自主性细小病毒H-1的敏感性。除HepG2细胞外,其他十个细胞系p53基因的结构和/或表达都不正常。经H-1感染(moi=20)后,其敏感性均高于HepG2细胞。本研究初步表明了p53基因结构或表达的不正常可能导致人肝癌或转化细胞对H-1的敏感性的提高。     

p53 gene expression of human hepatoma cell lines and their sensitivities to parvovirus H-1]

DNA structure and expression of p53 gene in human hepatoma cell lines SMMC-7721, YY-8103 and a spontaneously transformed liver cell line L-02 were analysed using the following method: analysis of allelic losses on chromosome 17p, PCR/SSCP, Northern blot and immunoprecipitation. There was no point mutation found in the exons 4-9 of the p53 gene, and a low level of expression of p53 gene was detected in the three cell lines. These observations were in agreement to the reported results of the relevant experiment using the human hepatoma cell line QGY-7703. Sensitivities of these cell lines and other eight human hepatoma cell lines (QGY-7703, PLC/PRF/5, Tong/HCC, Huh-7, FOCUS, Hep3B, SK-Hep-1, HepG2) with known p53 backgrounds to parvovirus H-1 was assayed using MTT method. Abnormality in the structure and/or function was observed in all of the cell lines examined except HepG2. The cell line HepG2 with normal structure and function of the p53 gene was found to be the least sensitive to H-1 in comparison to all the cell lines which have defeated structure and/or function of the p53 gene. The present study serves as a preliminary evidence that enhancement of the sensitivity of human hepatoma cell lines to H-1 is correlated to the abnormality of the structure and/or function of the p53 gene.     

DNA methylation-regulated miR-193a-3p dictates resistance of hepatocellular carcinoma to 5-fluorouracil via repression of SRSF2 expression

Chemoresistance prevents effective cancer therapy and is rarely predictable prior to treatment, particularly for hepatocellular carcinoma (HCC). Following the chemoresistance profiling of eight HCC cell lines to each of nine chemotherapeutics, two cell lines (QGY-7703 as a sensitive and SMMC-7721 as a resistant cell line to 5-fluorouracil (5-FU) treatment) were systematically studied for mechanistic insights underpinning HCC 5-FU chemoresistance. Genomic profiling at both DNA methylation and microRNA (miR) levels and subsequent mechanistic studies illustrate a new mechanism for how DNA methylation-regulated miR-193a-3p dictates the 5-FU resistance of HCC cells via repression of serine/arginine-rich splicing factor 2 (SRSF2) expression. In turn, SRSF2 preferentially up-regulates the proapoptotic splicing form of caspase 2 (CASP2L) and sensitizes HCC cells to 5-FU. Forced changes of miR-193a-3p level reverse all of the phenotypic features examined, including cell proliferation, cell cycle progression, and 5-FU sensitivity, in cell culture and in nude mice. Importantly, the siRNA-mediated repression of SRSF2 phenocopies all of the miR-193a-3p mimic-triggered changes in QGY-7703. This newly identified miR-193a-3p-SRSF2 axis highlights a new set of companion diagnostics required for optimal 5-FU therapy of HCC, which involve assaying both the DNA methylation state of the miR-193a gene and the expression of miR-193a-3p and SRSF2 and the relative level of the proapoptotic versus antiapoptotic splicing forms of caspase 2 in clinical samples.     

Expression of oncogenic epidermal growth factor receptor family kinases induces paclitaxel resistance and alters beta-tubulin isotype expression

Oncogenic transformation confers resistance to chemotherapy through a variety of mechanisms, including suppression of apoptosis, increased drug metabolism, and modification of target proteins. Oncogenic epidermal growth factor receptor family members, including EGFRvIII and HER2, are expressed in a broad spectrum of human malignancies. Cell lines transfected with EGFRvIII and HER2 are more resistant to paclitaxel-mediated cytotoxicity, and tubulin polymerization induced by paclitaxel is suppressed compared with cells expressing wild type epidermal growth factor receptor. Because differential expression of beta-tubulin isotypes has been proposed to modulate paclitaxel resistance, we analyzed beta-tubulin isotypes expressed in cell lines transfected with different oncogenes. EGFRvIII- and HER2-expressing cells demonstrated equivalent total beta-tubulin protein compared with cells transfected with wild type receptor or untransfected controls. EGFRvIII-expressing cells demonstrated increases in class IVa (2.5-fold) and IVb (3.1-fold) mRNA, and HER2-expressing cells showed increases in class IVa (2. 95-fold) mRNA. Expression of oncogenic Ha-Ras did not change class IV RNA levels significantly. Inhibition of EGFRvIII kinase activity using a mutant allele with an inactivating mutation in the kinase domain decreased expression of class IVa by 50% and partially reversed resistance to paclitaxel. Expression of oncogenic epidermal growth factor receptor family members is associated with modulation of both beta-tubulin isotype expression and paclitaxel resistance in cells transformed by expression of the receptor. This effect on tubulin expression may modulate drug resistance in human malignancies that express these oncogenes.     

Detection of human betaV-tubulin expression in epithelial cancer cell lines by tubulin proteomics

Tubulin, the constitutive protein of microtubules, is a heterodimeric protein with an alpha and beta subunit, encoded in vertebrates by six and seven different genes, respectively. Each tubulin isotype can be identified by its divergent C-terminal sequence. Nevertheless, two groups of beta-tubulin isotypes can be distinguished by sequence alignment; one includes betaI-, betaII-, betaIVa-, and betaIVb-tubulin, and the other includes betaIII-, betaV-, and betaVI-tubulin. betaIII-tubulin overexpression has been associated with microtubule destabilization and resistance to Taxol. Recent data indicate that mouse betaV-tubulin overexpression in CHO cells results in profound microtubule disorganization and dependence of cells on Taxol for growth. Mouse and human betaV-tubulin sequences display several differences, such as their respective extreme C-terminus, suggesting that they may have different effects on microtubule stability and different affinities for drugs. When high-resolution isoelectric focusing, in-gel CNBr cleavage, and mass spectrometry were combined, we detected for the first time the betaV-tubulin protein in human cell lines and found that it was highly expressed in Hey, an epithelial ovarian cancer cell line. Our data confirm that human and rodent betaV-tubulins are distinct and indicate that, regardless of species, betaIII- and betaV-tubulin may be expressed in a complementary pattern at the protein level. Therefore, both betaIII- and betaV-tubulin expression levels should be systematically determined to assess the role of differential tubulin isotype expression in the response of tumors to drugs targeting microtubules.     

Miscellaneous terpenoid constituents of Abies nephrolepis and their moderate cytotoxic activities

Three monoterpenoids and two triterpenoids were isolated from Abiesnephrolepis together with 53 known terpenoids. The structures of the compounds were established by 1D and 2D NMR spectroscopy. The absolute configuration of 3-hydroxycamphane-2-carboxylic acid was established as (1S,2R,3S,4R) by Cu-Kα X-ray crystallography. All 58 isolates were tested for cytotoxic activity against four tumor cells viz. A549 (human lung adenocarcinoma), Colo205 (colon adenocarcinoma), QGY-7703 (human hepatoma) and THP-1 (human monocytic leukemia). α-Cadinol exhibited the best effects on A549, Colo205 and QGY-7703 with IC₅₀ values of 8.6, 8.1 and 4.6 μg/mL, respectively.     

人肝癌细胞瘤QGY-7703的p53基因及其表达研究

本文利用等位基因分析,PCR-SSCP,RT-PCR/序列分析,Northern印迹,免疫组织化学,Western印迹,免疫沉淀等方法对人肝癌细胞株QGY-7703的p53基因背景进行了研究,发现17号染色体短臂可能存在等位基因缺失,在p53基因的编码序列上没有发现任何突变,但发现其mRNA和蛋白表达水平很低,表明在QGY-7703细胞中p53基因的低水平表达可能同细胞的恶性程度有关。     

菹草类胡萝卜素提取物对人肝癌细胞QGY-7703凋亡的影响

Human hepatoma cell line QGY-7703 was treated with the medium containing 10, 20, 40 and 60 micromol/L carotenoids extracts from Potamogoton crispus L. (CEPC) for 48 h, 96 h and 144 h, respectively. The inhibition rates to hepatoma cells were determined by MTT assay. The results showed the average inhibition rates of the three treatments varied from 0.14%-23.07%, 39.59%-70.61% and 71.65%-87.01%, respectively. After hepatoma cells were treated with the medium containing 10, 20 and 40 micromol/L of CEPC for 24 h, 48 h and 72 h, respectively, many typical morphology features of apoptotic cells were observed by Laser Scanning Confocal Microscope (LSCM), such as the distinct decrease in number and volume of cells, the shrinkage and deformation of cells, the shape of cell nucleuses appearing like crescent even piece, the decrease in area of yellow DNA in cell nuclei. The percentage of hepatoma cells in every phase of cell cycle was analyzed by Flow Cytometer (FCM) after being treated with 10 micromol/L and 20 micromol/L CEPC for 48 h. Compared with the control group, the cells in G0/G1 phase increased 23.8% (P<0.01) and 35.6% (P<0.01) respectively, in S phase decreased relevantly, while the cells in G2/M phase had no significant change. The Ca2+ concentration (fluorescence intensity) in cytoplasm of hepatoma cells was determined by LSCM after being treated with 20 micromol/L CEPC for 48 h. The Ca2+ concentration increased significantly (P<0.01) and was 1.5 times that of control group. These results demonstrated that the CEPC inhibited the proliferation of hepatoma cells QGY-7703 significantly in a dose and time-dependent manner in vitro. The hepatoma cells treated with CEPC were evidently arrested at G0/G1 phase in the cell cycle. The concentration of Ca2+ in test group cells cytoplasm increased significantly, it might be the important cause that CEPC induced the apoptosis of hepatoma cells QGY-7703. This paper provided scientific basis for further studying and developing the function and value of carotenoids in Potamogoton crispus L.     

Taxol induced Bcl-2 protein phosphorylation in human hepatocellular carcinoma QGY-7703 cell line

Bcl-2 family proteins play a critical role in the regulation of apoptosis. Treatment of a human hepatocellular carcinoma cell line, QGY-7703, with Taxol induced apoptosis and Bcl-2 protein phosphorylation. Microscopic observation indicated that apoptotic bodies (0-15%) of Taxol-treated QGY cells appeared after 12 h of treatment, and apoptotic QGY cells gradually increased to 40% after 24 h and 70% after 48 h. A DNA fragmentation assay showed that Taxol induced genomic DNA cleavage into 200 bp DNA fragments. Bcl-2 protein was phosphorylated in Taxol-treated QGY cells within 3 h of treatment, and continued gradually up to 24 h. By 48 h, the protein was unphosphorylated. Other Bcl-2 family proteins, including Bax (a heterodimerization partner of Bcl-2), Bcl-XL, Bak and Bad, were expressed, but at constant levels. The results show a close correlation between Bcl-2 phosphorylation and apoptosis in QGY cells. The inactivation of Bcl-2 protein phosphorylation could be one of the key mechanisms needed for the induction of apoptosis in Taxol-treated QGY cells.     

Carotenoids reverse multidrug resistance in cancer cells by interfering with ABC-transporters

Proteins of the ATP-binding cassette superfamily, mainly P-glycoprotein (P-gp; MDR1), play an important role in the development of multidrug resistance (MDR) in cancer cells and thus in the potential failure of chemotherapy. A selection of carotenoids (β-carotene, crocin, retinoic acid, canthaxanthin, and fucoxanthin) was investigated whether they are substrates of P-gp, and if they can reverse MDR in resistant Caco-2 and CEM/ADR5000 cells as compared to the sensitive parent cell line CCRF-CEM. The activity of ABC transporter was determined in resistant and sensitive cells by spectrofluorometry and flow cytometry using the substrates doxorubicin, rhodamine 123, and calcein as fluorescent probes. The carotenoids increased accumulation of these P-gp substrates in a dose-dependent manner indicating that they themselves also function as substrates. Fucoxanthin and canthaxanthin (50-100μM) produced a 3-5-fold higher retention of the fluorescent probes than the known competitive inhibitor verapamil. Carotenoids showed a low cytotoxicity in cells with MDR with IC(50) values between 100 and 200μM. The combination of carotenoids with eight structurally different cytotoxic agents synergistically enhanced their cytotoxicity in Caco-2 cells, probably by inhibiting the function of the ABC transporters. For example, fucoxanthin synergistically enhanced the cytotoxicity of 5-FU 53.37-fold, of vinblastine 51.01-fold, and of etoposide 12.47-fold. RT-PCR was applied to evaluate the mRNA levels of P-gp in Caco-2 cells after treatment with carotenoids. Fucoxanthin and canthaxanthin significantly decreased P-gp levels to 12% and 24%, respectively as compared to untreated control levels (p<0.001). This study implies that carotenoids may be utilised as chemosensitisers, especially as adjuvants in chemotherapy.     

Increased levels of tyrosinated alpha-, beta(III)-, and beta(IV)-tubulin isotypes in paclitaxel-resistant MCF-7 breast cancer cells

Paclitaxel (PTX), the diterpene alkaloid, is a potent anti-cancer drug and is routinely used for the treatment of breast and ovarian cancers. The cellular targets of PTX are microtubules, which are composed of alpha- and beta-tubulin. Development of PTX resistance in patients has been a major problem associated with cancer chemotherapy. In an effort to get insight into this phenomenon of drug resistance, a PTX-resistant cell line from MCF-7 breast cancer cells has been generated. Western analysis of the cell extracts revealed that the resistant cells contain 2-fold higher amount of tyrosinated alpha-tubulin than those of the wild-type MCF-7 cells. Similar analyses of beta-tubulin with the isotype-specific monoclonal antibodies demonstrated that the PTX-resistant cells contain 2.5-fold higher amounts of beta(III) and 1.5-fold higher amount of beta(IV)-tubulin, while no difference was observed in the level of beta(I) isotype. These results demonstrate for the first time that PTX resistance is associated with an increase in the level of tyrosinated alpha-tubulin.