Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0023418 (leukemia)
93,477 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Telomerase catalytic subunit (hTERT) exerts important cellular functions including telomere homeostasis, genetic stability, cell survival and perhaps differentiation. However, the nature of external or internal signals, which regulate hTERT expression in tissues, remains poorly understood. Thus, whereas it has been described that hTERT gene is regulated along the differentiation of primitive myeloid progenitors, the effect of specific cytokines on telomerase expression in each myeloid lineage is currently unknown. Based on these considerations, we have investigated hTERT expression in erythroid cells treated with erythropoietin (EPO) and transforming growth factor beta (TGFbeta), as putative positive and negative regulators, respectively. We describe here that EPO activates hTERT gene transcription in in vitro-expanded primary erythroid precursors as well as in UT7 erythroleukemia cells. In UT7 cells, this study shows also that EPO acts through a JAK2/STAT5/c-myc axis. In contrast, TGFbeta blocks EPO signaling downstream of c-myc induction through a Smad3-dependent mechanism. Finally, hTERT appears to be efficiently regulated by EPO and TGFbeta in an opposite way in erythropoietic cells, arguing for a role of telomerase in red blood cell production.
Leukemia 2007 Nov
PMID:Human telomerase is regulated by erythropoietin and transforming growth factor-beta in human erythroid progenitor cells. 1771 55

Almost all human malignant tumours exhibit strong telomerase activity, but normal adult tissues, with a few exceptions, do not. hTERT (human telomerase reverse transcriptase) is an essential component of telomerase, and hence it can serve as a parallel sign in the diagnosis and prognosis of cancers. In the present study, we selected a sequence of hTERT containing two antigenic epitopes that have high affinity for HLA-A2 (human leucocyte antigen-A2) as a TAA (tumour-associated antigen) based on a peptide-motif scoring system. The sequence was obtained by reverse-transcriptase PCR and cloned into the Escherichia coli expression vector pGEX-4T-1. The expression product appeared in the form of inclusion bodies. Denatured inclusion-body extract was subjected to SDS/PAGE, and the gel band corresponding to the putative 38 kDa fusion protein (GST-hTERT major tumour-associated antigen) was excised, ground with PBS, mixed with Freund's adjuvant and used to inoculate mice, generating anti-TERT polyclonal antibodies. Western blotting using the leukaemia cell line THP-1 demonstrated that the antibodies were able to detect hTERT expression, implying the potential applicability of the antigenic peptides derived from hTERT as a universal marker in the diagnosis and prognosis of tumours.
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PMID:Characterization of a human telomerase reverse transcriptase sequence containing two antigenic epitopes with high affinity for human leucocyte antigen. 1786 23

The role of telomerase catalytic subunit hTERT in clonal malignancies including human leukemia is fundamental in overcoming cell senescence and enabling prolonged proliferation. One direct transcriptional activator of hTERT is the oncogene MYC which is known to be, in turn, activated by JAK2. To explore the relationship of telomerase, MYC and JAK2 in chronic myeloproliferative diseases, we investigated hTERT and MYC expression in bone marrow cells of essential thrombocythemia (ET) and polycythemia vera (PV). We could determine an up-regulation of MYC expression exclusively in JAK2(wt) ET, whereas hTERT expression was rather inconsistent across the groups. Interestingly, a significant correlation between MYC and hTERT expression could only be established in homozygous JAK2(V617F) PV and control cases. Thus, the functional link between MYC and hTERT seems to be impaired depending on the molecular ET subtype, which in turn may have implications on the phenotype and course of the disease.
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PMID:The expression levels of telomerase catalytic subunit hTERT and oncogenic MYC in essential thrombocythemia are affected by the molecular subtype. 1808 61

Platycodin D (PD) is a major constituent of triterpene saponins found in the root of Platycodon grandiflorum. Recent studies have demonstrated that PD is a potentially interesting candidate for use in cancer chemotherapy. However, the molecular mechanisms responsible for PD-induced telomerase inhibition remain to be poorly known. In this study, we examined the effects of PD treatment on telomerase activity in different human leukemia cell lines. At concentrations between 10 and 20 microM, PD exerted a dose-dependent direct cytotoxic effect and inhibition of telomerase activity via downregulation of hTERT expression. Because c-Myc and Sp1 are known to directly regulate transcription of hTERT, we also evaluated the expression and DNA binding activity of these proteins. PD treatment reduced c-Myc and Sp1 protein levels and DNA binding activities in a dose-dependent manner. We also observed that PD treatment downregulates the activation of Akt, thereby reducing the phosphorylation and nuclear translocation of hTERT. We conclude that PD has direct cytotoxic effect on human leukemia cells and suppresses telomerase activity through transcriptional and posttranslational suppression of hTERT.
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PMID:Platycodin D induces apoptosis and decreases telomerase activity in human leukemia cells. 1809 27

Giant cell tumour of bone (GCTB) is a benign bone tumour known for the unpredictable clinical behaviour of recurrences and, in rare instances, distant metastases. It consists of uniformly distributed osteoclastic giant cells in a background of mononuclear rounded and spindle-shaped cells. Cytogenetically, telomeric associations are the most common chromosomal aberrations, which, however, are normally almost exclusively found in high-grade malignancies. GCTB has often been regarded as a polyclonal tumour, but more recently a recurrent specific aberration was reported, which suggests a possible role for disturbed telomere maintenance. Here we further investigate telomere maintenance in GCTB using 19 samples from 19 patients. A combination of immunofluorescence and FISH was performed, applying antibodies directed against promyelocytic leukaemia body-related antigen and hTERT and using telomere peptide nucleic acid probes. The TRAP assay and telomere restriction fragment length analysis were performed for functional detection of telomerase activity and alternative telomere lengthening. Both osteoclastic giant cells and mononuclear cells showed positivity for hTERT and promyelocytic leukaemia body-related antigen. In most mononuclear cells, co-expression was present. The TRAP assay demonstrated heterogeneous telomerase activity, while telomere restriction fragment length analysis showed non-heterogeneous telomere lengths, indicating the absence of alternative telomere lengthening. Confocal microscopy showed stereometric co-localization of nucleolin with promyelocytic leukaemia body-related antigen in association with telomeres in the spindle-shaped cells. hTERT was more diffusely distributed throughout the nucleus. Our results show that GCTB demonstrates remarkable telomere maintenance of activated telomerase and inactivated alternative telomere lengthening in the presence of normal mean telomere restriction fragment lengths. These findings strongly suggest that these aggregates, while activating telomerase, are part of a structural telomere protective-capping mechanism rather than of a telomere-lengthening mechanism. Telomere maintenance could be considered an important key factor in the pathogenesis of GCTB.
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PMID:Telomere biology in giant cell tumour of bone. 1827 85

Changes in the promoter methylation of hTERT, the gene that encodes telomerase, a ribonucleoprotein responsible for replacing telomeric repeats, have been demonstrated in differentiating cells where hTERT is inhibited, suggesting epigenetic regulation of hTERT. All-trans retinoic acid (ATRA) induces differentiation in human leukemia cells and has had significant clinical success treating promyelocytic leukemia in what is termed 'differentiation therapy'. It is thought that the inhibition of telomerase is a target of retinoids and is closely tied to the differentiated phenotype. This study demonstrates the epigenetic changes associated with ATRA-induced inhibition of telomerase activity, including the hypoacetylation and hypermethylation of the hTERT promoter. Further, we have found changes in the differential expression of the three DNA methyltransferases during ATRA-induced differentiation of HL60 human leukemia cells. These results suggest that alteration of DNA methylation may play a role in the activation of telomerase in cancer cells and that epigenetic mechanisms may represent a target for differentiation therapy mechanisms. We propose that epigenetic changes in the hTERT promoter represent a stable locking mechanism in the retionoid-induced suppression of telomerase activity.
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PMID:Epigenetic regulation of telomerase in retinoid-induced differentiation of human leukemia cells. 1829 40

The study was supposed to investigate the inhibitory effect of antisense phosphorothioate oligodeoxynucleotide (ASPSODN) targeting hTERT mRNA on gene of interest in K562 cells and influence of ASPSODN on telomerase activity and apoptosis of K562 cells. Human leukemia cell line K562 was transfected by liposome with ASPSODN and SPSODN (sense phosphorothioate oligodeoxynucleotide) at different concentrations (0.2, 0.6, 1.0 micromol/L). At the same time, blank control, liposome control and SPSODN groups were designed for comparison. The transfected cells were collected and detected at 24 and 48 hours; the expression of target gene hTERT mRNA and telomerase activity were detected by RT-PCR and TRAP-ELISA respectively, and cell apoptosis was assayed by flow cytometry. The results showed that after K562 cells were transfected for 24 hours, the expression of hTERT mRNA had no difference between liposome control (0.80+/-0.24), 0.2 micromol/L ASPSODN (0.69+/-0.12), 0.2 micromol/L SPSODN (0.72+/-0.25) and blank control (0.85+/-0.28), but the expression of hTERT mRNA in 0.6 micromol/L ASPSODN group (0.42+/-0.16) remarkably decreased as compared with liposome control group, 0.6 micromol/L SPSODN (0.69 +/- 0.26) had no obvious effect on the expression of hTERT mRNA, the expression of hTERT mRNA in 1.0 micromol/L ASPSODN and SPSODN groups both decreased; mortality of K562 cells transfected by liposome with 1.0 micromol/L ASPSODN and SPSODN remarkably increased. After 24 hours, telomerase relative activity of K562 cells showed no significant difference between blank control (88.9%) and liposome control (77.7%). The telomerase relative activities of K562 cells treated with 0.2, 0.6, 1.0 micromol/L ASPSODN were 60.6%, 52%, 58.2% respectively. There was significant difference as compared with blank control; 0.6 micromol/L ASPSODN showed significant difference (p=0.037), as compared with liposome control group. The telomerase relative activities in K562 cells treated with 0.2, 0.6, 1.0 micromol/L SPSODN were 76.1%, 72.2%, 65.7% respectively, but the telomerase relative activities of K562 cells in 0.2, 0.6 micromol/L SPSODN groups was not inhibited obviously. When K562 cells were treated for 48 hours, telomerase relative activity of K562 cells in each ASPSODN groups restored. It showed that telomerase relative activities of K562 cells treated with 0.2, 0.6, 1.0 micromol/L ASPSODN were 84.1%, 82.3%, 79.6% respectively, while telomerase relative activities of K562 cells treated with 0.2, 0.6, 1.0 micromol/L SPSODN for 48 hours were 74.8%, 74.5%, 67.9% respectively. Telomerase activity of K562 cells could not be inhibited by 0.2 and 0.6 micromol/L SPSODN. After culturing for 48 hours, the cell apoptosis rates of K562 in 0.6 micromol/L ASPSODN, 0.6 micromol/L SPSODN, liposome control and blank control groups were (4.82+/-0.39)%, (1.83+/-0.34)%, 1.84+/-1.04)%, (1.07+/-0.74)% respectively. There was difference between ASPSODN and SPSODN groups (p<0.05), but the significant difference was found in ASPSODN group as compared with liposome control and blank control (p<0.01). It is concluded that the ASPSODN targeting hTERT can specifically inhibit the expression of hTERT mRNA in K562 cells and significantly suppress the telomerase activity of K562 cells at 0.6 micromol/L, which inhibitory time is short. The ASPSODN at high concentration (1.0 micromol/L) shows definite cytotoxicity. 0.6 micromol/L of ASPSODN significantly induces cell apoptosis, while no such effect was seen in SPSODN group.
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PMID:[Effect of antisense oligodeoxynucleotide targeting hTERT on telomerase activity and cell apoptosis in K562 cell line]. 1831 99

This study was aimed to investigate the effect of plasmid-mediated RNAi targeting hTERT on blocking hTERT gene and inhibiting telomerase activity in leukemia cell line K562. For inhibiting hTERT mRNA, three siRNA strands were chemosynthesized and transfected into K562 cells, two effective and specific siRNA strands were chosen. Then plasmid pSUPER-U6-Kan rhTERT-1, pSUPER-U6-Kan rhTERT-2 targeting hTERT mRNA were constructed and transfected into K562 cells by liposome. The expression of hTERT mRNA, telomerase activity and cell apoptosis were detected at 48 hours and 72 hours. The results showed that three chemosynthesized strands began to significantly inhibit target gene expression at 48 hours, but the inhibiting rates were different. The inhibiting effect disappeared after 72 hours. After plasmid pSUPER-U6-Kan rhTERT -1 (P-1 group) and pSUPER-U6-Kan rhTERT -2 (P-2 group) were transfected into K562 cells, the expressions of hTERT mRNA both decreased in the two groups. The expression of hTERT mRNA in P-1 group was 0.39+/-0.13 at 48 hours, 0.57+/-0.32 at 72 hours. The expression of hTERT mRNA in P-2 group was 0.55+/-0.20 at 48 hours, 0.88+/-0.23 at 72 hours. Telomerase activity in P-1 group was 0.42+/-0.07 at 48 hours, 0.31+/-0.08 at 72 hours; the telomerase activity in group P-2 was 0.49+/-0.27 at 48 hours, 0.39+/-0.03 at 72 hours while telomerase activities in both groups were significantly lower than that in negative control group (0.88+/-0.30, 0.88+/-0.32). At 48 hours, the apoptosis rates in P-1 group (18.39+/-3.08%) and P-2 group (15.5+/-3.59%) were significantly higher than that in negative control group (7.64+/-3.73%). At 72 hours the apoptosis rate in P-1 group (13.2+/-1.18%) and in P-2 group (12.86+/-3.09%) had no significant difference as compared with negative control group (8.07+/-0.19%). It is concluded that RNAi targeting hTERT inhibits the expression of hTERT mRNA, and therefore inhibits telomerase activity. The inhibiting effect is closely correlated with target site. The si-hTERT-1 effect is better than si-hTERT-2, while si-hTERT-3 almost has no effect at all. The effective time of plasmid-induced RNAi is obviously longer than that of chemosynthesized siRNA. The former is longer than 72 hours, while the latter is only 48 hours. After the telomerase activity is inhibited, cell apoptosis increases a little than control group at 48 hours. At 72 hours cell apoptosis has no difference with control group. It is supposed that some cells can be induced to differentiation when telomerase activity has been down regulated.
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PMID:[Plasmid-mediated RNAi targeting hTERT inhibits telomerase activity in K562 cell line]. 1831

Genetic experiments using a dominant-negative form of human telomerase (DN-hTERT) demonstrated that telomerase inhibition can result in telomeric shortening followed by proliferation arrest and cell death by apoptosis. Neoplastic cells from telomerase RNA null (mTERC-/-) mice showed enhanced chemosensitivity to doxorubicin or related double-strand DNA break (DSB)-inducing agents. Telomerase dysfunction, rather than telomerase inhibition, is proposed to be the principal determinant governing chemosensitivity specifically to DSB-inducing agents. We observed that imatinib and vincristine (VCR), in addition to DSB-inducing agents, also enhanced chemosensitivity in telomestatin-treated K562 cells. This observation suggests that combined use of telomerase inhibitors and imatinib or other chemotherapeutic agents may be a very useful approach to treatment of BCR-ABL-positive leukemia.
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PMID:Telomerase inhibition combined with other chemotherapeutic reagents to enhance anti-cancer effect. 1836 25

The persistence of human T-cell leukemia/lymphoma virus-I (HTLV-I)-infected cells is dependent upon clonal expansion and up-regulation of telomerase (hTERT). We have previously found that in interleukin (IL)-2-independent transformed HTLV-I cells, Tax strongly activates the hTERT promoter through nuclear factor-kappaB (NF-kappaB)-mediated Sp1 and c-Myc activation. In IL-2-dependent cells and adult T-cell leukemia/lymphoma (ATLL) patient samples, however, Tax expression is very low to undetectable, yet these cells retain strong telomerase activity. This suggests the existence of compensatory mechanisms in IL-2-dependent cells and ATLL patients. In this study, we demonstrate that telomerase activity is significantly decreased upon IL-2 withdrawal in immortalized HTLV-I cell lines. Inhibition of PI3K or AKT signaling pathways reduced telomerase activity in HTLV-I cells. We found that IL-2/IL-2R signaling was associated with a PI3K-dependent/AKT-independent transcriptional up-regulation of the endogenous hTERT promoter. We found that activation of the PI3K pathway mediated cytoplasmic retention of the Wilms tumor (WTI) protein, which strongly suppressed the hTERT promoter. The importance of this regulatory pathway for telomerase expression is underscored by findings that the PI3K pathway is commonly found activated in cancer cells.
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PMID:Central role of PI3K in transcriptional activation of hTERT in HTLV-I-infected cells. 1880 72


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