Haploinsufficiency of hTERT leads to telomere dysfunction and radiosensitivity in human cancer cells

One of the most consistent differences between cancer cells and normal somatic cells is the continuous expression of telomerase, an enzyme that is important for maintenance of chromosome ends, or telomeres. It is believed that telomerase expression allows cancer cells to maintain their telomeres after many cell divisions and thereby avoid replicative senescence. We have tested this hypothesis by targeting the gene encoding the catalytic subunit of the telomerase holoenzyme, hTERT, in a human cancer cell line. Heterozygous disruption of hTERT led to a reduction in telomerase activity, telomere shortening, activation of DNA damage signaling and the appearance of a subpopulation of cells that displayed features of senescence. Targeted cells were radiosensitive, as compared with parental controls that had two intact hTERT alleles, and expressed a classical marker of senescence after irradiation. These results suggest that telomerase inhibitors might be useful in the sensitization of cancer cells to DNA damaging agents.     

Telomerase inhibition by siRNA causes senescence and apoptosis in Barrett's adenocarcinoma cells: mechanism and therapeutic potential

Background  

In cancer cells, telomerase induction helps maintain telomere length and thereby bypasses senescence and provides enhanced replicative potential. Chemical inhibitors of telomerase have been shown to reactivate telomere shortening and cause replicative senescence and apoptotic cell death of tumor cells while having little or no effect on normal diploid cells.     

Telomerase inhibition, telomere shortening, cell growth suppression and induction of apoptosis by telomestatin in childhood neuroblastoma cells

Neuroblastoma is a tumour derived from primitive cells of the sympathetic nervous system and is the most common extracranial solid tumour in childhood. Unfavourable tumours are characterised not only by structural changes, including 1p deletion and amplification of the MYCN proto-oncogene, but also by high telomerase activity. Telomeric G-rich single-stranded DNA can adopt in vitro an intramolecular quadruplex structure, which has been shown to inhibit telomerase activity. In this study, we examined telomestatin, a G-quadruplex interactive agent, for its ability to inhibit telomere maintenance of neuroblastoma cells. Telomere length was determined by the terminal restriction fragment method, telomerase activity was measured by a quantitative telomeric repeat amplification protocol, and the expression of human telomerase by quantitative real-time polymerase chain reaction (RT-PCR). Short-term treatment with telomestatin resulted in dose-dependent cytotoxicity and induction of apoptosis. Long-term treatment with telomestatin at non-cytotoxic, but still telomerase activity-inhibiting, concentrations resulted in telomere shortening, growth arrest and induction of apoptosis. These results suggest that the effect of telomestatin is dose-dependent and at least 2-fold. Prolonged low-dose treatment with telomestatin limits the cellular lifespan of NB cells through disruption of telomere maintenance.     

RNA干扰靶向抑制胃癌细胞株SGC7901 hTERT基因表达

背景与目的：胃癌是全人类常见恶性肿瘤之一。在我国，胃癌居各种癌症死亡之首，其总体五年生存率仅15％～20％。在目前尚无有效一级预防措施的情况下，积极探讨有效防治胃癌的方法成为必然趋势。本研究利用RNA干扰稳定筛选-抑制技术，抑制人端粒酶逆转录酶（hTERT）基因表达，探讨靶向hTERT基因RNAi对胃癌细胞增殖的抑制效应。方法：设计靶向hTERT基因的小干扰RNA，构建重组表达质粒pGenesil—shRNA—hTERT并导入人胃癌细胞系SGC7901细胞株，经G418筛选，建立稳定表达siRNA—hTERT的细胞株。采用real time RT—PCR、MTT和PCR—TRAP法同时检测pGenesil-shRNA—hTERT稳定抑制组和未处理SGC7901细胞组hTERT基因表达、端粒酶活性及细胞增殖变化。结果：在稳定表达pGenesil—shRNA—hTERT的SGC7901细胞株中，RNAi效力持续、稳定存在，hTERT mRNA表达、端粒酶活性明显降低，瘤细胞增殖被抑制。结论：RNA干扰能持续、稳定地抑制靶基因hTERT mRNA表达及肿瘤细胞增殖，是潜在的肿瘤基因治疗新方法。     

siRNA directed against Livin inhibits tumor growth and induces apoptosis in human glioma cells

Livin, a novel member of the human inhibitors of apoptosis protein family, plays an important role in tumor progression and occurrence by inhibiting cell apoptosis. It is selectively expressed in the most common human neoplasms and appears to be involved in tumor cell resistance to chemotherapeutic agents. The present study was designed to investigate the potential of using RNA interference (RNAi) technique to downregulate Livin expression, and the subsequent effect on human glioma cells. The results showed that knockdown of Livin expression by short interfering RNA (siRNA) significantly inhibited glioma cell proliferation and increased cell apoptosis through cell arrest in the G₁/G₀ phase of cell cycle in vitro. Furthermore, Livin siRNA significantly suppressed tumor growth in nude mice. Together, these findings suggest that RNAi-mediated downregulation of Livin expression could lead to potent antitumor activity in glioma cells and might serve as a novel therapeutic strategy in clinic.     

Attenuation of Telomerase Activity by siRNA Targeted Telomerase RNA Leads to Apoptosis and Inhibition of Proliferation in Human Renal Carcinoma Cells

OBJECTIVE Telomerase is an attractive molecular target for cancer therapy because the activation of telomerase is one of the key steps in cell immortalization and carcinogenesis. RNA interference using small-interfering RNA (siRNA) has been demonstrated to be an effective method for inhibiting the expression of a given gene in human cells. The aim of the present study was to investigate whether inhibition of telomerase activity by siRNA targeted against human telomerase RNA (hTR) can inhibit proliferation and induce apoptotic cell death in human renal carcinoma cells (HRCCs). METHODS The siRNA duplexes for hTR were synthesized and 786-0 HRCCs were transfected with different concentrations of hTR-siRNA. The influence on the hTR mRNA level, telomerase activity, as well as the effect on cell proliferation and apoptosis was examined. RESULTS Anti-hTR siRNA treatment of HRCCs resulted in specific reduction of hTR mRNA and inhibition of telomerase activity. Additionally, significant inhibition of proliferation and induction of apoptosis were observed. CONCLUSION siRNA against the hTR gene can inhibit proliferation and induce apoptosis by blocking telomerase activity of HRCCs. Specific hTR inhibition by siRNA represents a promising new option for renal cancer treatment.     

siRNA directed against TrkA sensitizes human pancreatic cancer cells to apoptosis induced by gemcitabine through an inactivation of PI3K/Akt-dependent pathway

Previously, we have documented that the aggressive and highly metastatic behavior of pancreatic cancer may be due to the aberrant expression of nerve growth factor (NGF) and its high-affinity receptor, proto-oncogene TrkA. In this study, we sought to determine the effect of suppressing TrkA expression on pancreatic cancer chemosensitivity to gemcitabine. Human pancreatic cancer cell lines PANC-1, MIA-PaCa-2 and ASPC-1 were studied. The expression and kinase activity of TrkA were determined by Western blot analysis and in vitro kinase assay respectively. RNA interference was used to suppress TrkA expression. Gemcitabine-induced cytotoxicity was determined by tetrazolium reduction assay and caspase profiling was performed. The effect of TrkA-specific siRNA on PI3K/Akt activity was also quantified. TrkA expression and kinase activity in cell lines were directly correlated with gemcitabine chemoresistance. TrkA-specific siRNA suppressed TrkA expression and kinase activity, and furthermore increased gemcitabine-induced, caspase-mediated apoptosis. PI3K/Akt activity was decreased by suppression of TrkA expression. Taken together, these data demonstrated that TrkA is a determinant of pancreatic adenocarcinoma chemoresistance and PI3K/Akt is a key signaling component by which NGF activation of the TrkA signal transduction pathway protects pancreatic cancer cells from chemotherapy-induced cell death.     

人端粒酶逆转录酶(hTERT)特异性siRNA对乳腺癌细胞hTERT水平及细胞生长影响的研究

背景与目的:在肿瘤细胞中端粒酶高水平的表达是肿瘤细胞永生化的重要因素。本研究利用人端粒酶逆转录酶(hTERT)的小干扰RNA(siRNA)特异性地抑制乳腺癌细胞的hTERT,通过研究该效应对细胞生长、凋亡和永生化相关基因的影响,来进一步阐述端粒酶在肿瘤细胞永生化可能的作用。方法:通过实时定量RT-PCR(Real-TimeRT-PCR)测定各乳腺癌细胞系中内源性hTERT的表达水平及测定RNA干扰对与细胞永生化相关基因的调节;通过脂质体转染法将hTERTsiRNA导入MCF7细胞;通过细胞生长曲线和流式细胞仪(FACS)评价该特异性的siRNA所诱导的hTERT水平下调对细胞生长和凋亡的影响。结果:所检测的乳腺癌细胞系中,hTERT均相对高表达。hTERTsiRNA可抑制MCF7中hTERT的水平,并在抑制后的第4天开始表现出显著的细胞生长抑制,并出现凋亡,以及多个细胞永生化相关的基因,如RAC1、PCYT2、FDFT1和ATP5G2,表达水平均下调50%以上。结论:hTERTsiRNA可特异性地抑制hTERTmRNA水平,从而抑制细胞生长,导致细胞凋亡,并下调多个细胞永生化基因。     

Enhanced sensitivity to irinotecan by Cdk1 inhibition in the p53-deficient HT29 human colon cancer cell line

Mutations in the tumor-suppressor gene p53 have been associated with advanced colorectal cancer (CRC). Irinotecan (CPT-11), a DNA topoisomerase 1 inhibitor, has been recently incorporated to the adjuvant therapy. Since the DNA-damage checkpoint depends on p53 activation, the status of p53 might critically influence the response to CPT-11. We analysed the sensitivity to CPT-11 in the human colon cancer cell line HT29 (mut p53) and its wild-type (wt)-p53 stably transfected subclone HT29-A4. Cell-cycle analysis in synchronised cells demonstrated the activation of transfected wt-p53 and a p21(WAF1/CIP1)-dependent cell-cycle blockage in the S phase. Activated wt-p53 increased apoptosis and enhanced sensitivity to CPT-11. In p53-deficient cells, cDNA-macroarray analysis and western blotting showed an accumulation of the cyclin-dependent kinase (cdk)1/cyclin B complex. Subsequent p53-independent activation of the cdk-inhibitor (cdk-I) p21(WAF1/CIP1) prevented cell-cycle progression. Cdk1 induction was exploited in vivo to improve the sensitivity to CPT-11 by additional treatment with the cdk-I CYC-202. We demonstrate a gain of sensitivity to CPT-11 in a p53-mutated colon cancer model either by restoring wild-type p53 function or by sequential treatment with cdk-Is. Considering that mutations in p53 are among the most common genetic alterations in CRC, a therapeutic approach specifically targeting p53-deficient tumors could greatly improve the treatment outcomes.     

Synthesis of glycosaminoglycans by undifferentiated and differentiated HT29 human colonic cancer cells

Among the extracellular matrix components which have been suggested to be involved in developmental and neoplastic changes are glycosaminoglycans (GAGs). To try to correlate their amount and nature with the process of enterocytic differentiation, we studied glycosaminoglycan synthesis of human colonic adenocarcinoma cells (HT29 cell line) by [3H]glucosamine and [35S]sulfate incorporation. Enterocytic differentiation of the cells obtained in a sugar-free medium (for review, see A. Zweibaum et al. In: Handbook of Physiology. Intestinal Transport of the Gastrointestinal System, in press, 1987) resulted in a marked increase in total incorporation of labeled precursors (20-fold for [3H]glucosamine, 4.5-fold for [35S]sulfate) as well as in uronic acid content (5-fold); most of the synthesized GAGs were found associated with the cell pellet. Chromatographic and electrophoretic analysis of the labeled GAGs revealed that undifferentiated cells synthesized and secreted hyaluronic acid, heparan sulfate, and one class of chondroitin sulfate. Differentiation of HT29 cells because associated with the synthesis of an additional class of chondroitin sulfate (CS4) concomitant to a decrease in heparan sulfate which is no longer found secreted in the medium. Furthermore, the charge density of this latter GAG component varied as assessed by a shift of its affinity on ion-exchange chromatography.     

Differential expression of sphingolipids in MRP1 overexpressing HT29 cells

We have obtained a novel multidrug resistant cell line, derived from HT29 G(+) human colon carcinoma cells, by selection with gradually increasing concentrations of the anti-mitotic, microtubule-disrupting agent colchicine. This HT29(col) cell line displayed a 25-fold increase in colchicine resistance and exhibited cross-resistance to doxorubicin, VP16, vincristine and taxol. Immunoblotting, combined with RT-PCR showed that the multidrug resistance phenotype was conferred by specific overexpression of the multidrug resistance protein 1. Confocal scanning laser microscopy revealed that multidrug resistance protein 1 specifically localized in the plasma membrane of HT29(col) cells. In a functional assay, using the fluorescent multidrug resistance protein 1 substrate 5-carboxyfluorescein, an increased efflux activity of HT29(col) cells was measured, as compared to the wild-type HT29 G(+) cells. MK571, a specific inhibitor of multidrug resistance protein 1, blocked the 5-carboxyfluorescein efflux, but only partially reversed resistance to colchicine, indicating that additional multidrug resistance mechanisms operate in HT29(col) cells. In conclusion, these results show for the first time overexpression of a functional multidrug resistance protein 1 under colchicine pressure, indicating that colchicine is not a P-glycoprotein-specific substrate. Colchicine-induced overexpression of multidrug resistance protein 1 is accompanied by a changed sphingolipid composition, i.e., enhanced levels of glucosylceramide and galactosylceramide. In addition, ceramide, a lipid messenger molecule involved in apoptosis-related signal transduction processes, was much more abundant in HT29(col) cells, which is indicative of a stress response.     

组蛋白去乙酰化酶1siRNA转染对Hela细胞的抑制

Objective:To investigate the anti-proliferative effect of histone deacetylases-1(HDAC-1)knockdown in Hela cells.Methods:The HDAC-1 protein was knockdowned using siRNA.The expression of HDAC-1 was detected by Western blotting.Apoptosis was assessed by flow cytometry.The inhibition of cell growth was assesses by MTT assay.Result:HDAC-1 siRNA knockdowned the expression of HDAC-1 protein.HDAC siRNA inhibited lhe proliferation of Hela cells.HDAC-1 siRNA induced apoptosis.Conclusion:HDAC-1 siRNA may inhibit the growth of Hela cells by inducing apoptosis.     

Telomerase inhibition by peptide nucleic acids reverses 'immortality' of transformed human cells

Telomerase activity, the ability to add telomeric repeats to the ends of chromosomes, has been detected in most immortal cell lines including tumor cells, but is low or absent in most diploid, mortal cells such as those of somatic tissues. Peptide nucleic acids (PNAs), analogs of DNA or RNA which bind to complementary nucleic acids with very high affinity, were co-electroporated into immortal human cells along with a selectable plasmid. Introduction of PNAs inverse-complementary to telomerase RNA effectively inhibited telomerase activity in intact cells, shortened telomeres, reduced colony size, and arrested cell proliferation after a lag period of 5-30 cell generations, consistent with suppression of their 'immortality'. Electroporation of selection plasmid alone had no effect, while PNAs of altered sequence were markedly less effective in each assay. This constitutes the first demonstration of cell growth arrest through telomerase inhibition, upon treatment of intact cells with an exogenous compound which can be efficiently delivered in vivo. The phenotype of telomerase-inhibited transformed cells differs from senescence of normal diploid fibroblasts, but rather resembles the crisis state of incompletely transformed cells.     

Antiproliferative effects of crocin in HepG2 cells by telomerase inhibition and hTERT down-regulation

Crocin, the main pigment of Crocus sativus L., has been shown to have antiproliferative effects on cancer cells, but the involved mechanisms are only poor understood. This study focused on probable effect of crocin on the immortality of hepatic cancer cells. Cytotoxicity of crocin (IC50 3 mg/ml) in hepatocarcinoma HepG2 cells was determined after 48 h by neutral red uptake assay and MTT test. Immortality was investigated through quantification of relative telomerase activity with a quantitative real-time PCR-based telomerase repeat amplification protocol (qTRAP). Telomerase activity in 0.5 μg protein extract of HepG2 cells treated with 3 mg/ml crocin was reduced to about 51% as compared to untreated control cells. Two mechanisms of inhibition, i.e. interaction of crocin with telomeric quadruplex sequences and down regulation of hTERT expression, were examined using FRET analysis to measure melting temperature of a synthetic telomeric oligonucleotide in the presence of crocin and quantitative real-time RT-PCR, respectively. No significant changes were observed in the Tm telomeric oligonucleotides, while the relative expression level of the catalytic subunit of telomerase (hTERT) gene showed a 60% decrease as compared to untreated control cells. In conclusion, telomerase activity of HepG2 cells decreases after treatment with crocin, which is probably caused by down-regulation of the expression of the catalytic subunit of the enzyme.     

Autophagyinhibition by chloroquine sensitizes HT-29 colorectal cancer cells to concurrent chemoradiation Schonewolf CA,Mehta M,Schiff D,Wu H,Haffty BG,Karantza V,Jabbour SK简

AIM: To investigate whether the inhibition of autophagy by chloroquine (CQ) sensitizes rectal tumors to radiation therapy (RT) or concurrent chemoradiation (chemoRT).METHODS: In vitro, HCT-116 and HT-29 colorectal cancer (CRC) cell lines were treated as following: (1) PBS; (2) CQ; (3) 5-fluorouracil (5-FU); (4) RT; (5) CQ and RT; (6) 5-FU and RT; (7) CQ and 5-FU; and (8) 5-FU and CQ and RT. Each group was then exposed to various doses of radiation (0-8 Gy) depending on the experiment. Cell viability and proliferative capacity were measured by 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT) and clonogenic assays. Clonogenic survival curves were constructed and compared across treatment groups. Autophagy status was determined by assessing the LC3-II to LC3-I ratio on western blot analysis, autophagosome formation on electron microscopy and identification of a perinuclear punctate pattern with GFP-labeled LC3 on fluorescence microscopy. Cell cycle arrest and cell death were evaluated by FACS and Annexin V analysis. All experiments were performed in triplicate and statistical analysis was performed by the student’s t test to compare means between treatment groups.RESULTS: RT (2-8 Gy) induced autophagy in HCT-116 and HT-29 CRC cell lines at 4 and 6 h post-radiation, respectively, as measured by increasing LC3-II to LC3-I ratio on western blot. Additionally, electron microscopy demonstrated autophagy induction in HT-29 cells 24 h following irradiation at a dose of 8 Gy. Drug treatment with 5-FU (25 μmol/L) induced autophagy and the combination of 5-FU and RT demonstrated synergism in autophagy induction. CQ (10 μmol/L) alone and in combination with RT effectively inhibited autophagy and sensitized both HCT-116 and HT-29 cells to treatment with radiation (8 Gy; P < 0.001 and 0.00001, respectively). Significant decrease in clonogenic survival was seen only in the HT-29 cell line, when CQ was combined with RT at doses of 2 and 8 Gy (P < 0.5 and P = 0.05, respectively). There were no differences in cell cycle progression or Annexin V staining upon CQ addition to RT.CONCLUSION: Autophagy inhibition by CQ increases CRC cell sensitivity to concurrent treatment with 5-FU and RT in vitro, suggesting that addition of CQ to chemoRT improves CRC treatment response.