Dysregulated expression of the major telomerase components in leukaemic stem cells.

Telomere loss is rapid during the progression of chronic myeloid leukaemia (CML) and correlates with prognosis. We therefore sought to measure expression of the major telomerase components (hTR and hTERT) in CD34+ cells from CML patients and normal controls, to determine if their altered expression may contribute to telomere attrition in vivo. High-purity (median 94.1%) BCR-ABL+ CD34+ cells from CML (n=16) and non-CML (n=14) patients were used. CML samples had a small increase in telomerase activity (TA) compared to normal samples (approximately 1.5-fold, P=0.004), which was inversely correlated with the percentage of G0 cells (P=0.02) suggesting TA may not be elevated on a cell-to-cell basis in CML. Consistent with this, hTERT mRNA expression was not significantly elevated; however, altered mRNA splicing appeared to play a significant role in determining overall full length, functional hTERT levels. Interestingly, Q-RT-PCR for hTR demonstrated a mean five-fold reduction in levels in the chronic phase (CP) CML samples (P=0.002), raising the possibility that telomere homeostasis is disrupted in CML. In summary, the molecular events regulating telomerase gene expression and telomere maintenance during the CP of CML may influence the disease progression observed in these patients.     

Differential gene expression of human telomerase-associated protein hTERT and TEP1 in human hematopoietic cells

The maintenance of telomere length is crucial for the survival of cells. Recently, genes for proteins that consist of human telomerase have been cloned and the results have indicated a close relationship between telomerase activity and its gene expression. We studied the mRNA expression of the telomerase-associated genes, hTERT and TEP1, in hematopoietic cells in order to clarify the relation between them and telomerase activity using semiquantitative RT-PCR. In polymorphonuclear cells and monocytes isolated from peripheral blood, which had no detectable telomerase activity, no hTERT mRNA expression was seen. On the other hand, lymphocytes and CD34-positive cells both demonstrated hTERT mRNA expression. TEP1 mRNA was detected in all samples, showing no differential expression. We then assessed hTERT and TEP1 mRNA expression in CD34-positive cells cultured in vitro with growth factors. After 4 weeks of culture, all the cells showed myeloid differentiation and the telomerase activity was downregulated. hTERT mRNA was expressed in CD34-positive cells, but was downregulated in 4-week-cultured cells. TEP1 showed no apparent differential expression. We conclude that hTERT mRNA expression is downregulated in accordance with telomerase downregulation during the course of myeloid differentiation, which suggests that it plays a crucial role in the expression of enzyme activity, while TEP1 has a much smaller role to play, if any.     

Telomeres and telomerase in chronic myeloid leukaemia: impact for pathogenesis,disease progression and targeted therapy

Telomeres are specialized structures localized at the end of human chromosomes. Due to the end replication problem, each cell division results in a loss of telomeric repeats in normal somatic cells. In germ line and stem cells, the multicomponent enzyme telomerase maintains the length of telomere repeats. However, elevated telomerase activity has also been reported in the majority of solid tumours as well as in acute and chronic leukaemia. Chronic myeloid leukaemia (CML) serves as a model disease to study telomere biology in clonal myeloproliferative disorders. In CML, telomere shortening correlates with disease stage, duration of chronic phase (CP), prognosis measured by the Hasford risk score and the response to disease‐modifying therapeutics such as the tyrosine kinase inhibitor Imatinib. In addition, telomerase activity (TA) is already increased in CP CML and further upregulated with disease progression to accelerated phase and blast crisis (BC). Furthermore, a correlation of TA with increased genetic instability as well as a shorter survival of the patients has been reported. Here, we review the current state of knowledge of the role of telomere and telomerase biology in CML and discuss the possible impact of novel treatment approaches. Copyright © 2009 John Wiley & Sons, Ltd.     

肺癌组织中端粒酶基因与端粒酶活性关系的研究

目的 探讨肺癌组织中端粒酶基因hTR、hTERT与端粒酶活性的表达是否与肺癌的发生发展有关，深入了解端粒酶基因对端粒酶活性的调控是在基因水平还是在转录水平。方法 采用TRAP－PCR和RT－PCR方法分别检测68例肺癌组织及相应癌旁肺组织中端粒酶活性、端粒酶基因hTR和hTERP的表达。结果 68例肺癌组织中端粒酶阳性率为79．4％（54／68）,hTR阳性率为98．5％（67／68）,hTERT阳性率为91．2％（62／68）。68例癌旁组织中无一例表达端粒酶阳性，但大多数癌旁组织均表达hTR(62/68,91.2%)，仅7例hTERT表达阳性（10．3％），与hTR相比，hTERT同端粒酶具有更高的一致性，其一致率为89．0％（121／136），而ThTR与端粒酶的一致率为43．4％（59／136）。结论 端粒酶的活性可能在肺癌发生发展中起重要的作用。hTR与hTERT可能是在转录后或翻译后水平对端粒酶进行调控的。     

端粒酶基因和抗凋亡基因bcl-2在肺组织中的表达研究

 目的　研究肺癌端粒酶基因和bcl 2的关系 ,以期阐明端粒酶基因及抗凋亡基因对端粒酶的调控机理。方法　采用TRAP、RT PCR及LSAB的方法研究了肺癌端粒酶活性、hTR、hTERT及bcl 2的表达。结果　 82 .3%的肺癌组织表达端粒酶阳性 ,38例癌组织中 ,34例表达hTR (89.4 % ) ,36例表达hTERT(94 .7% )。而在相应的癌旁组织中 ,34例表达hTR ,但只有 3例表达hTERT(7.8% )。结论　肺癌组织中具有较高的端粒酶活性 ,在肿瘤组织和正常组织中hTERT的表达有显著的差异 (P <0 .0 5 )。hTR在正常组织和肿瘤组织均有较高的表达 ,bcl 2的表达与端粒酶基因有着较高的相关性。     

Differential telomerase activity, expression of the telomerase catalytic sub-unit and telomerase-RNA in ovarian tumors.

Telomerase activity has been found in a variety of malignant tumors but only rarely in benign tumors or normal tissues. In this study, we investigated telomerase activation in 37 ovarian tumors, including benign, borderline and malignant neoplasms. Telomerase activity was detected using the telomeric repeat amplification protocol (TRAP) in 13/16 ovarian carcinomas, 9/10 borderline tumors and 3/11 cystadenomas/fibromas. mRNA expression of the putative human telomerase catalytic sub-unit gene (hTERT) was detected by RT-PCR in 14/15 ovarian carcinomas, 8/10 borderline tumors and 4/11 cystadenomas/fibromas. In situ hybridization was performed to evaluate telomerase-RNA (hTR) expression in the corresponding paraffin-embedded tumors. Variable expression levels of hTR were found over neoplastic tumor cells. The highest levels of hTR expression were found predominantly in ovarian carcinomas. Although the amount of telomerase activity varied, significantly high levels of telomerase activity were found predominantly in ovarian carcinomas. hTERT mRNA expression was closely associated with telomerase activity. These findings suggest that up-regulation of hTERT and hTR is important for telomerase activation during malignant-tumor progression. Telomerase activation might therefore be a valuable diagnostic parameter that could help to identify potentially progressive lesions. However, the diagnostic and therapeutic implications of telomerase activation need to be clarified in clinical trials. Int. J. Cancer (Pred. Oncol.) 84:426-431, 1999.     

Detection of telomerase RNA in the plasma of patients with breast cancer, malignant melanoma or thyroid cancer

The crucial step in cellular immortalisation seems to be the activation of telomerase, the enzyme that synthesizes telomere repeat ending sequences. Since the telomerase activity has been detected in almost all types of cancer tissue it has been proposed as new reliable tumor marker. This study was conducted to evaluate the significance of appearance of circulating RNA for telomerase subunits hTR and hTERT in the plasma of cancer patients. Seven healthy volunteers, 25 primary breast cancer patients (stage I-III), 29 patients with advanced malignant melanoma (stage III-IV), and 4 patients with advanced thyroid cancer (stage III-IV) were included in the study. The total RNA was extracted from plasma samples, reverse transcribed to cDNAs, and specific cDNAs for hTR and hTERT were amplified by semi-nested PCR. In healthy volunteers, the control GAPDH was positive in all, hTR was positive in 3 cases, and hTERT was negative in all 7 tested cases. Among 25 breast cancer patients, hTR was positive in 23, and hTERT in 12 patients. Two cases, that were hTR and hTERT negative, were at the same time negative also for GAPDH. Of the 29 patients with malignant melanoma, 24 were positive for hTR, and 17 for hTERT. Again, the 5 patients that were negative for hTR and hTERT, were negative also for the control GAPDH. In all plasma samples from thyroid cancer patients, hTR and hTERT were positive. In conclusion, the RT-PCR followed by semi-nested PCR is a highly sensitive method for detection of circulating RNA in the plasma. Among the telomerase subunits, only hTERT could serve as an unspecific tumor marker in the plasma of cancer patients.