Impaired telomere regulation mechanism by TRF1 (telomere-binding protein), but not TRF2 expression, in acute leukemia cells

Telomere regulation is suggested to be an important mechanism in cellular proliferation and cellular senescence not only in normal diploid cells but also in neoplastic cells, including human leukemia cells. We studied the possible correlation among telomere length, telomerase (a ribonuclear protein that synthesizes the telemeres de novo) activity, hTERT (a catalytic subunit of telomerase) expression, and TRF1 and TRF2 (telomere DNA binding proteins) expression in human acute leukemia cells. The hTERT expression level was strongly associated with telomerase activity (P=0.0001), indicating that the expression level of the catalytic subunit (hTERT) regulates telomerase activity in human acute leukemia cells. TRF1 expression, which is believed to control telomere length, was significantly elevated in patients with acute lymphoblastic leukemia (ALL) (P=0.0232) compared to those in acute myeloid leukemia (AML); TRF1 expression tended to be higher in patients without telomere shortening (P=0.077) and in those with hTERT expression (P=0.055). This indicates that TRF1 may act to monitor telomere length under the condition of up-regulated telomerase activity in some neoplastic cells. In contrast, TRF2 expression in acute leukemia did not show any correlation with telomere parameters in this study. Although the precise regulation mechanism of telomere length is still uncertain, these results may suggest that regulation of telomere length is partially associated with TRF1 expression, whereas dysfunction of TRF1 expression may be speculated in a subset of acute leukemia.     

Ectopic expression of c-myc fails to overcome downregulation of telomerase activity induced by herbimycin A, but ectopic hTERT expression overcomes it.

Telomerase plays a key role in the maintenance of chromosomal stability in tumors, but the mechanism regulating telomerase activity is still unclear. Recent studies have suggested that c-myc may be vital for regulation of hTERT mRNA expression and telomerase activity. In this study, we investigated the changes of telomerase activity and telomerase-related genes induced by herbimycin A in K562 human chronic myelogeous leukemic cells. Telomerase activity showed a biphasic pattern in herbimycin A-treated K562 cells. Initially, the telomerase activity decreased along with the decline of cells in S and G2/M phases, but it recovered slightly at the end of treatment. Expression of mRNA for the telomerase catalytic subunit (hTERT) was decreased before the decline of telomerase activity, and increased slightly before the reactivation of telomerase activity. During herbimycin A treatment, both c-myc and cyclin D1 mRNA showed transient downregulation before the increase of G1 cells. Herbimycin A treatment caused the downregulation of both telomerase activity and hTERT mRNA in cyclin D1-transfected K562 cells, while telomerase activity was partially restored in c-Myc-transfected cells. In contrast, hTERT-transfected K562 cells maintained a high level of telomerase activity during herbimycin A treatment. Neither the template RNA component of telomerase (hTERC) nor telomerase-associated protein (TEP-1) were altered in any of the transfected K562 cells. These results indicate that telomerase activity is mainly regulated by hTERT, and that c-Myc protein is one of the positive regulators of hTERT in leukemic cells but is not enough to counteract the downregulation of telomerase activity by herbimycin A completely.     

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.     

hTERT methylation is necessary but not sufficient for telomerase activity in colorectal cells

Colorectal cancers exhibit a high telomerase activity, usually correlated with the hypermethylation of the promoter of its hTERT catalytic subunit. Although telomerase is not expressed in normal tissue, certain proliferative somatic cells such as intestinal crypt cells have demonstrated telomerase activity. The aim of this study was to determine whether a correlation exists between telomerase activity, levels of hTERT methylation and telomere length in tumoral and normal colorectal tissues. Tumor, transitional and normal tissues were obtained from 11 patients with a colorectal cancer. After bisulfite modification of genomic DNA, hTERT promoter methylation was analyzed by methylation-sensitive single-strand conformation analysis (MS-SSCA). Telomerase activity and telomere length were measured by a fluorescent-telomeric repeat amplification protocol assay and by Southern blotting, respectively. A significant increase of hTERT methylation and telomerase activity, and a reduction of the mean telomere length were observed in the tumor tissues compared to the transitional and normal mucosa. In the transitional and normal mucosa, telomerase activity was significantly lower than that in tumor tissues, even with high levels of hTERT methylation. Nevertheless, hTERT promoter methylation was not linearly correlated to telomerase activity. These data indicate that hTERT promoter methylation is a necessary event for hTERT expression, as is telomerase activity. However, methylation is not sufficient for hTERT activation, particularly in normal colorectal cells.     

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.     

HPV18 E6 E7基因诱发的人胎儿食管上皮永生化和恶性转化细胞端粒长度和端粒酶活性

目的：探讨端粒长度、端粒酶活性以及端粒酶亚单位组分（hTERT、hTR）的表达与食管上皮细胞永生化和恶性转化之间的关系。方法：对HPV18E6E7基因诱发的人胎儿食管上皮永生化细胞系SHEE和恶性转经细胞系SHEEC,通过Southern blot检测端粒长度（TRF）,TRAP法测定端粒酶活性,RT－PCR研究端粒酶催化亚单位（hTERT)端粒酶RNA成分（hTR）的表达。结果：SHEE细胞和SHEEC细胞的端料平均长度比正常食管上皮细胞的明显缩短,但稳定维持在一定长度范围内。SHEE细胞和SHEEC细胞均具有端料酶活性,并均有hTERT和hTR表达。结论：端粒酶表达活化使端粒维持在一定长度是永生化食管上皮细胞SHEE和恶性转化细胞SHEEC能够稳定分裂增殖的重要因素之一。     

Telomere dynamics in childhood leukemia and solid tumors: a follow-up study.

Telomeres of hematopoietic cells shorten with age, possibly contributing to the aging-associated hematopoietic pathology (immunosenescence, malignant transformation). Accelerated telomere shortening is seen with replicative stress, such as during administration of serial chemotherapy cycles for the treatment of childhood cancer. To define the long-term consequences of pediatric cancer treatment on hematopoietic cell telomere length, we undertook a prospective 4-year follow-up study of a 61-patient cohort of pediatric malignancies in a community-based setting. We found that mononuclear cells (MNC) and granulocytes of children with standard-risk acute lymphoblastic leukemia (ALL) suffered minimal telomere shortening throughout therapy (less than 1 kbp; average follow-up, 20 months), while those of children with solid tumors showed greater and more heterogenous telomere attrition (0.5-2.8 kbp, average follow-up, 9 months). In addition, we evaluated the role of telomerase, the enzyme commonly up-regulated in pediatric leukemic and solid tumor cells for telomere length maintenance, as a disease marker. Serial determinations of telomerase in MNC were useful to confirm disease remission in leukemia, but play no role in the follow-up of children with solid tumors.