UMLS:C0023473 - FACTA Search

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Query: UMLS:C0023473 (chronic myeloid leukemia)
18,916 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Normal cell development and function is dependent upon controlled gene expression. DNA methylation is an epigenetic modification that can play an important role in the control of gene expression. DNA methylation at cytosine residues in gene promoter CpG sequences is known to inhibit gene transcription. Inappropriate inhibition of the transcription of tumour suppressor genes, genes that inhibit angiogenesis and metastasis and genes involved in DNA repair by uncontrolled methylation, can lead to unregulated growth and proliferation of a cell and carcinogenesis. Promoter hypermethylation affecting the p16 gene, resulting in gene silencing, has been shown to occur in many human solid tumours and a 'hypermethylation profile' in some leukaemias has been defined. The molecular mechanisms by which aberrant DNA methylation takes place during carcinogenesis are still not clear. However, the large number of target genes (involved in tumorigenesis) that are silenced by aberrant methylation suggests that inhibition of this process may have potential as cancer therapy. Decitabine (NSC-127716, Dacogen; SuperGen) is a potent and specific hypomethylating agent and an inhibitor of the DNA methyltransferase activity that mediates DNA methylation. Decitabine has been shown to have a broad range of antineoplastic activity in preclinical studies. This agent has exhibited significant activity in the treatment of patients with myelodysplastic syndrome, chronic myeloid leukaemia and acute myeloid leukaemia, although clinical Phase I and II studies with solid tumours have not been very promising. Phase II and III studies are currently ongoing to evaluate decitabine, both alone and in combination, in various stages of these haematological malignancies.
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PMID:DNA methylation in haematological malignancies: the role of decitabine. 1464 Sep 42

Because JunB is an essential gene for placentation, it was conditionally deleted in the embryo proper. JunBDelta/Delta mice are born viable, but develop severe low turnover osteopenia caused by apparent cell-autonomous osteoblast and osteoclast defects before a chronic myeloid leukemia-like disease. Although JunB was reported to be a negative regulator of cell proliferation, junBDelta/Delta osteoclast precursors and osteoblasts show reduced proliferation along with a differentiation defect in vivo and in vitro. Mutant osteoblasts express elevated p16(INK4a) levels, but exhibit decreased cyclin D1 and cyclin A expression. Runx2 is transiently increased during osteoblast differentiation in vitro, whereas mature osteoblast markers such as osteocalcin and bone sialoprotein are strongly reduced. To support a cell-autonomous function of JunB in osteoclasts, junB was inactivated specifically in the macrophage-osteoclast lineage. Mutant mice develop an osteopetrosis-like phenotype with increased bone mass and reduced numbers of osteoclasts. Thus, these data reveal a novel function of JunB as a positive regulator controlling primarily osteoblast as well as osteoclast activity.
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PMID:Mice lacking JunB are osteopenic due to cell-autonomous osteoblast and osteoclast defects. 1476 60

Busulfan (1,4-butanediol dimethanesulfonate) has been used widely for the treatment of patients with chronic myelogenous leukemia. Busulfan is bifunctional and thus may effectively induce DNA damage, which may play an important role in the cytotoxicity. In this study, we compared the cytotoxicity of bifunctional busulfan with that of monofunctional ethyl methanesulfonate (EMS) in human promyelocytic leukemia HL-60 cells. Busulfan showed a significant inhibitory effect on cell growth, whereas the cells grew in the presence of EMS. To clarify the mechanism of cytotoxicity of busulfan, we investigated DNA damage induced by busulfan using 32P-5'-end-labeled DNA fragments obtained from the human p16 tumor suppressor gene. Busulfan induced DNA damage dose-dependently, whereas EMS caused little DNA damage. DNA-sequencing experiments using piperidine and 3-methyladenine DNA glycosylase indicated that busulfan caused double-base lesions mainly at 5'-GA-3' and, to a lesser extent, at 5'-GG-3' sequences. Time of flight mass spectrometry confirmed that busulfan forms an intrastrand cross-link at the 5'-GA-3' sequence, in addition to mono-alkylation. The mechanism and the role of cross-linking at the 5'-GA-3' sequence are discussed in relation to the cytotoxicity induced by busulfan.
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PMID:DNA intrastrand cross-link at the 5'-GA-3' sequence formed by busulfan and its role in the cytotoxic effect. 1513 75

Gene amplification is a relatively rare event in hematologic malignancies. The ABL gene on chromosome band 9q34 is a proto-oncogene and is the well-known translocation partner of the BCR gene on 22q11 giving rise to t(9;22)(q34;q11), which is the hallmark of chronic myeloid leukemia and is the most common chromosomal abnormality in adult acute lymphoblastic leukemia (ALL). Amplification of ABL is an exceedingly rare event, with only less than 5 cases reported in the literature. The p16(INK4a) (or CDKN2A) gene on 9p21 is a tumor suppressor gene, and deletion thereof is recently recognized as one of the most common genetic abnormalities in ALL. The authors herein describe an 8-year-old male patient with precursor T-cell ALL harboring both ABL gene amplification and p16(INK4a) gene deletion. Fluorescence in situ hybridization (FISH) analysis using BCR/ABL probes revealed five or more ABL signals, indicating amplification in 51.5% of interphase nuclei. FISH using p16(INK4a) gene probes showed heterozygous p16(INK4a) deletion in 71.0%. On conventional cytogenetic analysis, however, only 10 metaphases were available, which showed the normal karyotype, 46,XY[10], serving no evidence for the findings on FISH. This is the first report of an ALL case with ABL amplification, and the authors speculate that both ABL proto-oncogene amplification and the p16(INK4a) tumor suppressor gene deletion have been implicated in leukemogenesis in the present case, although whether the ABL amplification truly contributes to the leukemogenesis or merely an epiphenomenon representing underlying genomic instability remains to be determined.
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PMID:ABL oncogene amplification with p16(INK4a) gene deletion in precursor T-cell acute lymphoblastic leukemia/lymphoma: report of the first case. 1528 69

The BCR-ABL1 fusion kinase is frequently associated with chronic myeloid leukemia and B-cell acute lymphoblastic leukemia but is rare in T-cell acute lymphoblastic leukemia (T-ALL). We recently identified NUP214-ABL1 as a variant ABL1 fusion gene in 6% of T-ALL patients. Here we describe the identification of another ABL1 fusion, EML1-ABL1, in a T-ALL patient with a cryptic t(9;14)(q34;q32) associated with deletion of CDKN2A (p16) and expression of TLX1 (HOX11). Echinoderm microtubule-associated protein-like 1-Abelson 1 (EML1-ABL1) is a constitutively phosphorylated tyrosine kinase that transforms Ba/F3 cells to growth factor-independent growth through activation of survival and proliferation pathways, including extracellular signal-related kinase 1/2 (Erk1/2), signal transducers and activators of transcription 5 (Stat5), and Lyn kinase. Deletion of the coiled-coil domain of EML1 abrogated the transforming properties of the fusion kinase. EML1-ABL1 and breakpoint cluster region (BCR)-ABL1 were equally sensitive to the tyrosine kinase inhibitor imatinib. These data further demonstrate the involvement of ABL1 fusions in the pathogenesis of T-ALL and identify EML1-ABL1 as a novel therapeutic target of imatinib.
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PMID:Fusion of EML1 to ABL1 in T-cell acute lymphoblastic leukemia with cryptic t(9;14)(q34;q32). 1571

Expression of p14(ARF) and p16(INK4a) tumor suppressor genes was investigated in 109 patients with chronic myeloid leukemia (CML). The p14(ARF) and p16(INK4a) mRNA levels were significantly low in patients in chronic phase (CP) at presentation and high in patients treated with interferon-alpha (IFN-alpha), especially in non-responders. A moderate overexpression of p14(ARF) with a normal expression of p16(INK4a) was observed in imatinib-resistant patients. Although protein expression did not consistently match mRNA levels, a role for the two cell cycle regulators in the IFN-alpha signaling pathway is suggested as well as a relation with the resistance to IFN-alpha or imatinib therapy.
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PMID:Expression of the cell cycle regulators p14(ARF) and p16(INK4a) in chronic myeloid leukemia. 1653 30

Bio-cell chip is a chip that has hundreds of types of cells arrayed and immobilized on a small slide. To elucidate the role of deletion of the p16 gene in hematologic malignancies, the bio-cell chip technique was applied to fluorescent in situ hybridization (FISH) study. We made a bio-cell chip with bone marrow specimen from 109 patients with acute lymphoblastic leukemia (ALL), 102 patients with acute myelogenous leukemia (AML), 47 patients with chronic myelogenous leukemia (CML), and 25 patients with multiple myeloma (MM). A glass slide with 96 separated areas was fabricated, onto which was added methanol/acetic acid fixed cell suspensions for high-throughput FISH for p16. With the successful application of bio-cell chip technique, we found that the deletion of p16 contributed to the oncogenesis in acute leukemia, but not in chronic leukemia. In conclusion, the bio-cell chip, a cell version of ultrahigh-throughput technology, was successfully applied to the FISH study, which can be utilized efficiently in the molecular cytogenetic investigation of hematologic malignancies.
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PMID:Application of high throughput cell array technology to FISH: investigation of the role of deletion of p16 gene in leukemias. 1694 74

Both epigenetic and genetic alternations are involved in cancer formation. In this study, we have identified the methylation frequency of p16 and endothelin receptor type B (EDNRB) of 26 leukemia patients and 8 randomly selected normal blood donors in Taiwan. Promoter methylation of p16 was detected in 85% of acute lymphocytic leukemia (ALL), 83% in acute myeloid leukemia (AML) whereas no methylation was detected in chronic myeloid leukemia (CML) in blast crisis. Hypermethylation of EDNRB was observed in 92% of ALL, 75% AML and 100% in CML in blast crisis. No aberrant methylation of p16 and EDNRB was found in 8 normal blood donors. Taken together, aberrant methylation of p16 and EDNRB was highly prevalent in leukemia patients in Taiwan.
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PMID:Promoter methylation of p16 and EDNRB gene in leukemia patients in Taiwan. 1855 92

Senescence and apoptosis programs governed by the Rb and p53 signaling networks can counter tissue stem cell self-renewal. A master regulator of Rb and p53 is the INK4-ARF (CDKN2A/B) locus that encodes two CDK inhibitors, p16(INK4A) and p15(INK4B), that maintain Rb in its active, hypophosphorylated form, and p14(ARF) (p19(Arf) in mice), that inhibits Mdm2 and activates p53. The INK4-ARF genes are epigenetically silenced in hematopoietic stem cells but become poised to respond to oncogenic stress as blood cells differentiate. Inactivation of INK4-ARF endows differentiated cells with an inappropriate self-renewal capacity, a defining feature of cancer cells. In BCR-ABL-induced (Philadelphia chromosome-positive [Ph(+)]) leukemias, INK4-ARF deletions frequently occur in clinically aggressive acute lymphoblastic leukemias (Ph(+) ALLs) but are not seen in more indolent Ph(+) chronic myelogenous leukemia (CML) or in CML myeloid blast crisis. Mouse modeling of Ph(+) ALL reveals that Arf inactivation attenuates responsiveness to targeted BCR-ABL kinase inhibitors, enhances the maintenance of leukemia-initiating cells within the hematopoietic microenvironment, and facilitates the emergence of malignant clones that harbor drug-resistant BCR-ABL kinase mutations. Thus, although BCR-ABL mutations typify drug resistance in both CML and Ph(+) ALL, loss of INK4-ARF in Ph(+) ALL enhances disease aggressiveness and undermines the salutary effects of targeted therapy.
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PMID:The INK4-ARF (CDKN2A/B) locus in hematopoiesis and BCR-ABL-induced leukemias. 1902 87

BCR-ABL is a causative tyrosine kinase (TK) of chronic myelogenous leukemia (CML). In CML patients, although myeloid cells are remarkably proliferating, erythroid cells are rather decreased and anemia is commonly observed. This phenotype is quite different from that observed in polycythemia vera (PV) caused by JAK2 V617F, whereas both oncogenic TKs activate common downstream molecules at the level of hematopoietic stem cells (HSCs). To clarify this mechanism, we investigated the effects of BCR-ABL and JAK2 V617F on erythropoiesis. Enforced expression of BCR-ABL but not of JAK2 V617F in murine LSK (Lineage(-)Sca-1(hi)CD117(hi)) cells inhibited the development of erythroid cells. Among several signaling molecules downstream of BCR-ABL, an active mutant of N-Ras (N-RasE12) but not of STAT5 or phosphatidylinositol 3-kinase (PI3-K) inhibited erythropoiesis, while N-RasE12 enhanced the development of myeloid cells. BCR-ABL activated Ras signal more intensely than JAK2 V617F, and inhibition of Ras by manumycin A, a farnesyltransferase inhibitor, ameliorated erythroid colony formation of CML cells. As for the mechanisms of Ras-induced suppression of erythropoiesis, we found that GATA-1, an erythroid-specific transcription factor, blocked Ras-mediated mitogenic signaling at the level of MEK through the direct interaction. Furthermore, enforced expression of N-RasE12 in LSK cells derived from p53-, p16(INK4a)/p19(ARF)-, and p21(CIP1/WAF1)-null/wild-type mice revealed that suppressed erythroid cell growth by N-RasE12 was restored only by p21(CIP1/WAF1) deficiency, indicating that a cyclin-dependent kinase (CDK) inhibitor, p21(CIP1/WAF1), plays crucial roles in Ras-induced suppression of erythropoiesis. These data would, at least partly, explain why respective oncogenic TKs cause different disease phenotypes.
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PMID:BCR-ABL but not JAK2 V617F inhibits erythropoiesis through the Ras signal by inducing p21CIP1/WAF1. 2066 70

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