Changes of telomerase and telomere lengths in paired normal and cancer tissues of breast.

To attain the immortal phenotype, cancer cells must overcome the mitotic clock. Telomerase activity has been identified to be activated in malignant tumors including breast cancer. Telomerase activity was evaluated in 71 breast cancer tissues and paired normal tissues with the TRAP (telomerase repeat amplification protocol) assay. Telomerase activity was calculated and translated into arbitrary units by computer-assisted densitometry with the control of telomerase activity in the 293 control cell line. In 59 paired breast tissues with telomerase activity, terminal restriction fragment (TRF) lengths were measured using Southern blotting. Relative inhibition (RI), the ratio of inhibited telomerase activity in each tumor tissue compared to that of the 293 control cell line after pre-treatment with 150 microg/ml of RNAse A, was measured. Sixty-three of 71 cancer tissues showed telomerase activity (88.7%) with 75.3+/-17.9 units in densitometry, while no telomerase activity was detected in their paired normal tissues. Telomerase activity was correlated to node metastasis (p=0.02) and stage (p=0.005), but not to tumor size or the hormonal receptor status. TRF lengths were 11. 0+/-4.7 kb in 59 tumor tissues and 11.7+/-2.2 kb in paired normal tissues. TRF lengths did not correlate to any of the clinical parameters. However changes of TRF lengths in tumor tissues compared to those of normal tissues correlated to telomerase activity. RI in the tumor tissues was proportional to telomerase activity without RNAse A pre-treatment. In breast cancer, telomerase activity was specific to tumor tissues and increased with tumor progression. Telomerase activity and changes in TRF lengths can be used as guidelines in detecting candidates for the telomerase inhibitor.     

Telomere length and telomerase activity in non-small cell lung cancer prognosis: clinical usefulness of a specific telomere status

Background

Considering previous data and the need to incorporate new biomarkers for the prognosis of solid tumours into the clinic, our aim in this work consists of evaluating the potential clinical use of telomeres and telomerase in non-small cell lung cancer (NSCLC).

Methods

Telomere status was established by determination of telomere length using the Terminal Restriction Fragment length method, and telomerase activity by the Telomeric Repeat Amplification Protocol in 142 NSCLCs and their corresponding control samples, obtained from patients submitted to surgery. Group-oriented curves for disease-free survival were calculated according to the Kaplan-Meier method considering telomere length, T/N ratio (telomere length in tumour to control tissue) and telomerase activity.

Results

Overall, tumours had significantly shorter telomeres compared with telomeres in control tissues (P = 0.027). More than 80 % of NSCLCs displayed telomerase activity. Regarding prognosis studies, patients whose tumours showed a mean telomere length (MTL) <7.29 Kb or T/N ratio <0.97 showed a significantly poor clinical evolution (P = 0.034 and P = 0.040, respectively). As result of a Cox multivariate analysis including pathologic state and lymph node dissemination, the MTL and T/N ratio emerged as independent significant prognostic factors.

Conclusions

Telomerase activity was identified as a marker of poor prognosis. The novel finding of this study is the independent prognosis role of a specific telomere status in NSCLC patients. According to our results, telomere function may emerge as a useful molecular tool that allow to select groups of NSCLC patients with different clinical evolution, in order to establish personalized therapy protocols.     

Telomeric lengths and telomerase activity in liposarcomas

To assess the role of telomerase in the development of liposarcomas, we measured telomerase activity in 36 malignant and seven benign lipomatous neoplasias from 34 patients. A sensitive polymerase chain reaction-based telomerase assay (the telomeric repeat amplification protocol) was applied. Shortening or elongation of telomeric repeat fragment lengths, as measured by using hybridization with a telomere-specific oligonucleotide probe, was correlated with the presence of telomerase activity. The latter was demonstrable in 69% of malignant tumors. Benign tumors can be distinguished from malignant neoplasias on the basis of telomerase activity. However, telomerase expression seems to be characteristic of poorly differentiated liposarcomas. Myxoid/round cell liposarcomas exhibited a higher telomerase activity level than the classical low-grade variants. Telomerase activity was not correlated with age at the time of diagnosis or with sex. In most cases, telomerase-positive tumors showed higher proliferation indices than did neoplasias lacking telomerase. All eight recurrences expressed telomerase activity, reflecting a close association of telomerase with the biological behavior of liposarcomas. Our findings suggest that telomerase may play a key role in the establishment and progression of malignant lipomatous tumors.     

人喉鳞癌细胞端粒长度、端粒酶活性与放射敏感性的关系

背景与目的:肿瘤细胞的端粒长度、端粒酶活性与其增殖能力和恶性程度关系密切,而且端粒和端粒酶还可能参与放射诱导的DNA损伤的修复;由此推测肿瘤细胞的端粒长度、端粒酶活性与放射敏感性之间可能存在联系。本研究旨在探讨人喉鳞癌细胞端粒长度、端粒酶活性与放射敏感性的关系。方法:体外长期传代的人喉鳞癌细胞系Hep鄄2经0、2、4、8、12Gy剂量照射3次后的存活后代体外培养20代,以克隆形成实验测定其放射敏感性参数SF2,Southernblot法测定其端粒长度(meanlengthoftelomererestrictionfragments,TRF),TRAP鄄ELISA法测定其端粒酶活性(telomeraseactivity,TA)。结果:人喉鳞癌细胞不同放射剂量存活后代的SF2:0.47～0.64,TRF:3.76～9.43kb,TA:2.606～1.761,且它们各自的SF2、TRF、TA存在差异(P均<0.05);而且,SF2与TRF呈现明显的正相关(r=0.921,P<0.01),SF2与TA呈现明显的负相关(r=-0.929,P<0.01),TRF与TA呈现明显的负相关(r=-0.944,P<0.01)。结论:人喉鳞癌细胞接受不同放射剂量存活后代的放射敏感性与其端粒长度和端粒酶活性具有一定的相关性,提示端粒长度与端粒酶活性检测对预测肿瘤细胞放射敏感性有一定意义。     

Enhanced expression of telomerase activity in thymoma and thymic carcinoma tissues: a clinicopathologic study

BACKGROUND: Telomerase is a nucleoprotein complex that caps the physical termini of all eukaryotic chromosomes. Because most malignant cells and reproductive cells have telomerase activity, which elongates telomeric DNA, telomerase may play important roles in unlimited cell division acquisition of the malignant phenotype. The current study examined the relation of telomerase activity in thymoma and thymic carcinoma with the clinicopathologic features of these lesions. METHODS: Tissue specimens were surgically resected from patients with thymoma and thymic carcinoma. Telomerase activity was evaluated according to a modified telomeric repeat amplification protocol assay. Paraffin sections of tumor were immunostained by MIC2 antibody, a marker of immature T cells. RESULTS: Telomerase activity was detected in all thymic epithelial tumors. The activity (mean +/- SD; unit per microg protein) in thymoma (n = 17) was significantly higher than that in thymic carcinoma (n = 7) (431.8 +/- 400.1 vs. 68.8 +/- 39.8; P < 0.01). Telomerase activities in thymoma and thymic carcinoma were significantly higher than that in primary lung adenocarcinoma (33.5 +/- 39.2, n = 47), studied as a control (P < 0.01). In patients with thymoma, telomerase activity did not correlate with tumor stage according to Masaoka classification (P = 0.776). In patients with thymic carcinoma, however, telomerase activity positively correlated with tumor stage (P = 0.02). In thymoma, telomerase activity positively correlated with the ratio of induced lymphocytes according to Rosai's classification (P = 0.045). MIC2-positive lymphocytes were identified in all cases of thymoma (n = 12). In contrast, lymphocytes infiltrating thymic carcinoma did not react with MIC2. CONCLUSIONS: In thymoma, telomerase activity reflects the presence of immature T-cell lymphocytes in tumor tissue rather than tumor stage or malignant phenotype. In thymic carcinoma, telomerase activity derived directly from cancer cells may relate to tumor stage.     

Telomere length and telomerase activity in carcinogenesis of the stomach

Telomerase activity is generally absent in primary cell cultures and normal tissues. Telomerase is known to be induced upon immortalization or malignant transformation of human cells. In the present study, we analyzed both telomere length and telomerase activity in biopsy samples from mucosa undergoing metaplasia, adenoma and cancer of the stomach. We attempted to estimate the correlation between telomerase activity and telomere length in these tissues. Telomerase activity was estimated using the telomeric repeat amplification protocol and telomere length by Southern blot analysis. Extracts were defined as telomerase-negative when the signals were less intense than those for 10(2) KATO-III cells (positive control). We detected telomerase activity in 15%, 45% and 89% of the examined cases of intestinal metaplasia, adenoma and gastric cancer respectively. However, telomere length in the gastric mucosa became reduced as the mucosa underwent metaplasia and developed into adenoma. Gastric cancers showed a broad range of telomere length among cases. However, gastric adenomas showed the shortest telomere length. These results suggest that telomerase is expressed during the early phase (intestinal metaplasia through adenoma) of gastric carcinogenesis, although the activity at that stage is not high enough to fully restore the reduced telomeric DNA.      

Telomerase activity and telomere length in benign and malignant human thyroid tissues

Several studies have demonstrated that telomerase is activated and telomere length is altered in various types of tumors. In this study, we investigated telomerase activities and telomere length in 21 thyroid tumors. Telomerase activity was detected in 11 of 12 thyroid cancers and three of nine follicular adenomas. The mean telomere lengths in the cancers tissue and follicular adenomas were lower than in the respective background tissues, the differences being significant (P=0.0055 and P<0.006), respectively. Our findings suggest that change in telomerase activity and telomere length may be important for development of thyroid tumors.     

A novel platinum compound inhibits telomerase activity in vitro and reduces telomere length in a human hepatoma cell line

Telomerase activity is detectable in most human tumors but not in most normal somatic cells or tissues. Telomerase inhibition has, therefore, been proposed as a novel and potentially selective strategy for antitumor therapy. In the present study, we found that platinum compounds, including cisplatin [cis-diamminedichloro-platinum (II)], strongly inhibited the activity of partially purified rat telomerase. Among the agents tested, 2,3-dibromosuccinato [2-(methylaminomethyl)pyridine]platinum (II) (compound E) exhibited the strongest inhibition, with an median inhibitory concentration (IC(50)) of 0.8 micro M. The mode of inhibition was noncompetitive with either dNTPs or TS (first) primer, with K(i) values estimated to be 2.3 or 3.9 micro M for varied TS primer or dNTPs, respectively. Notably, cisplatin also inhibited the telomerase activity, with an IC(50) of 2.0 micro M. Again, the mode of inhibition was noncompetitive, with K(i) values estimated as 7.3 or 8.1 micro M. Preincubation of TS primer with compound E did not affect the telomerase inhibition, whereas preincubation with cisplatin caused remarkable enhancement. Treatment of a human hepatoma cell line HepG2 with a low concentration of compound E gradually reduced the telomere length, indicating that this compound was able to inhibit telomerase in living cells as well as in vitro.     

Telomere length and telomerase activity in malignant lymphomas at diagnosis and relapse

Telomere length maintenance, in the vast majority of cases executed by telomerase, is a prerequisite for long-term proliferation. Most malignant tumours, including lymphomas, are telomerase-positive and this activity is a potential target for future therapeutic interventions since inhibition of telomerase has been shown to result in telomere shortening and cell death in vitro. One prerequisite for the suitability of anti-telomerase drugs in treating cancer is that tumours exhibit shortened telomeres compared to telomerase-positive stem cells. A scenario is envisioned where the tumour burden is reduced using conventional therapy whereafter remaining tumour cells are treated with telomerase inhibitors. In evaluating the realism of such an approach it is essential to know the effects on telomere status by traditional therapeutic regimens. We have studied the telomere lengths in 47 diagnostic lymphomas and a significant telomere shortening was observed compared to benign lymphoid tissues. In addition, telomere length and telomerase activity were studied in consecutive samples from patients with relapsing non-Hodgkin's lymphomas. Shortened, unchanged and elongated telomere lengths were observed in the relapse samples. The telomere length alterations found in the relapsing lymphomas appeared to be independent of telomerase and rather represented clonal selection random at the telomere length level. These data indicate that anti-telomerase therapy would be suitable in only a fraction of malignant lymphomas.     

Recent advances in telomere biology: implications for human cancer

PURPOSE OF REVIEW: Research into the basic biology of telomeres continues to reveal details relevant to fundamental aspects of human cancer. The goal of this review is to highlight discoveries made within the last year, with emphasis on their relevance to cancer prevention, diagnosis, prognostics, and treatment. RECENT FINDINGS: Increasing evidence indicates that dysfunctional telomeres likely play a causal role in the process of malignant transformation, in at least a fraction of human cancers, by initiating chromosomal instability. Telomeres form protective capping structures composed of telomeric DNA complexed with a multitude of associated proteins, the loss of which can have profound effects on telomeric stability. Critical telomeric shortening can lead to telomere "uncapping" and may occur at the earliest recognizable stages of malignant transformation in epithelial tissues. The widespread activation of the telomere synthesizing enzyme telomerase in human cancers not only confers unlimited replicative potential but also prevents intolerable levels of chromosomal instability. Several details regarding telomere structure and telomerase regulation have recently been elucidated, providing new targets for therapeutic exploitation. Various therapeutic strategies aimed at either telomerase or its telomeric substrate are showing promise and may synergize with established anti-cancer agents. Further support for anti-telomerase approaches comes from recent studies indicating that telomerase may possess additional functions, beyond telomere maintenance, that support the growth and survival of tumor cells. SUMMARY: Substantial progress has been made in understanding the complex relationships that exist between telomeres and cancer. However, important issues, such as transient activation of telomerase in normal cells and the potential for tumor cell immortalization via telomerase independent means, remain to be clarified.     

A model for heterogeneous nuclear ribonucleoproteins in telomere and telomerase regulation

The heterogeneous nuclear ribonucleoproteins (hnRNPs) are a large family of nucleic acid binding proteins that are often found in, but not restricted to, the 40S-ribonucleoprotein particle. Subsets of hnRNPs are strictly nuclear while others shuttle between the nucleus and cytoplasm. Members of the hnRNP family have been implicated to have roles in many aspects of mRNA maturation/turnover and in telomere and telomerase regulation. Telomeres are repetitive DNA elements mainly found at the ends of human chromosomes. In most normal cells, telomeres shorten with each cell division. Telomere shortening can be compensated for by a ribonucleoprotein complex, called telomerase. Telomerase, consisting of an integral RNA and catalytic protein component as well as several auxiliary factors, extends the 3'-G-rich strand of the ends of the telomeres. Here we present new data and describe a model that implicates the telomerase bound hnRNPs in promoting telomere access by interacting with telomeres. Telomere bound hnRNPs include hnRNP A1, A2-B1, D and E and telomerase bound hnRNPs including hnRNPA1 C1/C2 and D. The telomere and telomerase bound hnRNPs may prove to be good targets for regulating telomere length.     

Resistance to apoptosis in human cells conferred by telomerase function and telomere stability.

Cell senescence and programmed cell death (apoptosis) are two fundamental biological mechanisms that regulate proliferative capacity, survival potential, aging, and death of cells. Here we report several independent lines of experimental evidence that support the hypothesis that telomerase function and telomere length perform important roles in cell survival during apoptosis. First, with serum starvation and matrix-independent survival experiments, we found that young normal diploid cells were more resistant to apoptosis than their older counterparts. In addition, normal cells with stable telomere lengths caused by ectopic expression of telomerase maintained an increased resistance to serum starvation- and matrix-deprivation-induced programmed cell death compared with aged normal cells without telomerase. Second, we found that telomerase-positive immortalized SW39 cells had a higher survival ability and resistance to apoptosis than their telomerase-negative immortalized counterparts, SW13 and SW26. Third, we showed that telomerase-positive cells with experimentally elongated telomeres (GTR-IDH4 and GTR-DU145) acquired increased survival ability and higher resistance to apoptosis than the parental cell lines with shorter telomeres (IDH4 and DU145). Higher resistance to apoptosis of these cells was associated with a deficiency in two major apoptosis execution pathways: induction of nuclear calcium-dependent endonucleases and activation of the interleukin-1 beta-converting enzyme-family of proteases (caspases). Taken together, these results provide the first direct experimental evidence supporting the hypothesis that telomerase activity and maintenance of telomere stability are associated with increased cellular resistance to apoptosis.     

Antisense epidermal growth factor receptor RNA transfection in human glioblastoma cells down-regulates telomerase activity and telomere length

Epidermal growth factor receptor is overexpressed and/or amplified in up to 50% of glioblastomas, suggesting an important role of this gene in glial tumorigenesis and progression. In the present study we demonstrated that epidermal growth factor receptor is involved in regulation of telomerase activity in glioblastoma. Antisense-epidermal growth factor receptor approach was used to inhibit epidermal growth factor receptor expression of glioblastoma U87MG cells. Telomerase activity in antisense-epidermal growth factor receptor cells decreased by up to 54 folds compared with control cells. Moreover, the telomere lengths of antisense-epidermal growth factor receptor cells were shortened. In addition, the tumorigenicity of antisense-epidermal growth factor receptor cells was significantly inhibited. Taken together, there were strong correlations between tumorigenicity and epidermal growth factor receptor expression levels, and between tumorigenicity and telomerase activity. These results provide evidence that epidermal growth factor receptor plays an important role in the regulation of telomerase activity of glioma cells. Our findings provide new insights into both the biological functions of epidermal growth factor receptor and the regulation of telomerase activity. The inhibition of telomerase activity triggered by antisense-epidermal growth factor receptor treatment may reflect yet another mechanism of antisense-epidermal growth factor receptor approach in tumour suppression.     

Analysis of telomerase activity and telomere length in bone and soft tissue tumors

Telomerase activation is prevalent in most epithelial tumors, and may be a critical step in cellular immortalization and carcinogenesis. However, telomerase activity in tumors of mesenchymal origin is not well understood. In the present study, we examined telomerase activity in clinical samples from osteosarcoma and soft tissue sarcoma and representative sarcoma cell lines (HOS, OST and Saos2), using the telomeric repeat amplification protocol (TRAP) assay. The cell lines HOS and OST were telomerase-positive, but Saos2 cells lacked telomerase activity and hTERT mRNA expression. Treatment of Saos2 cells with the demethylating agent 5-aza-2'-deoxy-cytidine, alone or together with the histone deacetylase inhibitor tricostatin A, did not induce hTERT mRNA expression. Twenty-six of the 83 sarcoma samples (31.3%) were telomerase-positive [bone sarcoma, 15 of 42 samples (35.7%); soft tissue sarcoma, 11 of 41 samples (26.8%)], whereas neither benign tumors nor normal bone tissue expressed telomerase activity. There was no significant correlation between histological type, tumor staging and telomerase activity. However, patients with telomerase-positive tumors had significantly shorter survival than those with telomerase-negative tumors. There was heterogeneity in telomere length (range, 6-18 kb) among the tumors examined, but there was no significant difference in length between telomerase-positive and -negative tumors. Thus, these mesenchymal tumors comprise heterologous groups, some positive and some negative for telomerase, with long and short telomeres, suggesting multiple carcinogenesis pathways. The present results indicate that telomerase activation is not prevalent in mesenchymal tumors and is not a critical determinant of telomere length, but it may be a prognostic indicator of mesenchymal tumors.     

Telomere length and radiosensitivity in human fibroblast clones immortalized by ectopic telomerase expression

Telomeres, the ends of eukaryotic chromosomes, have a variable length among individuals and cell types. While studies in telomerase-deficient mice and cells showed an inverse correlation between telomere length and radiosensitivity, it is less clear whether this remains true in telomerase-proficient cells. To gain insight into this topic, we studied radiosensitivity in three telomerase immortalized fibroblast clones derived from the same cell line and characterized by different telomere length. In two clones, cen3tel4 and cen3tel5, the mean terminal restriction fragment length was approximately 13 and 10 kb, respectively and in the third clone, cen3pci16, it was approximately 4 kb, which is lower than in senescent fibroblasts. To test radiosensitivity, we determined survival to gamma-rays and the induction of chromosomal aberrations after irradiation. Neither the LD50, the gamma-ray dose that reduces survival to 50%, nor the frequency of aberrations detected in the three cell lines showed an inverse correlation with telomere length. In particular, the cen3pci16 cells, which have very short telomeres, did not show a higher sensitivity to irradiation or a greater frequency of chromosomal abnormalities compared to the other two cell lines. Our results suggest that, in the presence of telomerase activity, short telomeres are stabilized and do not cause an increase in radiosensitivity.     

2-5A antisense therapy directed against human telomerase RNA inhibits telomerase activity and induces apoptosis without telomere impairment in cervical cancer cells

Human telomerase RNA (hTR), an important component of telomerase, is a possible target of telomerase-based cancer gene therapy. The present study was undertaken to assess the efficacy of antisense hTR therapy using newly developed 2-5A (5'-phosphorylated 2'-5'-linked oligoadenylate)-linked oligonucleotides against cervical cancer cells. ME180 and SiHa cells were treated with 2-5A-linked antisense hTR designed to complement the region of hTR between residues 76 and 94. The hTR expression, telomerase activity, cell viability, and apoptosis were then examined. The 2-5A anti-hTR effectively degraded hTR and inhibited telomerase activity. The 2-5A mutant anti-hTR and the anti-hTR without 2-5A were not capable of inhibiting telomerase activity. Inhibition of telomerase by 2-5A anti-hTR rapidly decreased cell viability only in telomerase-positive cells within 3-6 days after the treatment, when telomere length has not yet been shortened. This inhibition was associated with apoptosis, possibly through activation of caspase family members. These findings suggest that 2-5A-linked antisense-hTR therapy has a potent telomerase-inhibitory effect associated with a cytocidal effect from caspase-induced apoptosis, and may therefore be a potential tool in telomerase-based gene therapy against cervical cancers.