Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0023473 (chronic myeloid leukemia)
 18,916 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Two hundred and thirty-six cases of multiple primary cancer associated with hematological malignancies, collected from 35 medical institutions in Japan, are reported. Based on the time interval between the first cancer and the second cancer, they were divided into three groups: synchronous cancer (94 cases), metachronous cancer subsequent to hematological malignancy (61 cases) and metachronous hematological malignancy subsequent to carcinoma (76 cases). The most common initial cancers were acute leukemia (including atypical leukemia and erythroleukemia), non-Hodgkin's lymphoma, multiple myeloma and chronic myelogenous leukemia of the hematological malignancies, and gastric cancer of the carcinomas. Patients with cancer of the uterus and breast in the metachronous cancer group metachronously developed hematological malignancies more frequently than those in the synchronous cancer group. Multiple primary cancer was observed more frequently in men than in women both in the synchronous cancer group and in the group with metachronous cancer subsequent to hematological malignancies. Acute leukemia was the most frequent disease type in incidence among the metachronous hematological malignancies. This secondary acute leukemia was characterized by a mostly granulocytic nature, poor response to chemotherapy and poor prognosis.
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PMID:Multiple primary cancers associated with hematological malignancies. 400 83

Hfz5 is a potent cancer associated gene, encoding WNT receptor with the potential to activate beta-catenin - TCF signaling pathway. Here, human Frizzled-5 (FZD5) gene and cDNAs were cloned and characterized. FZD5 was almost identical to Hfz5, except for six amino-acid substitutions at codon 88, 262, 263, 345, 357, and 402. HF5S1 probe (nucleotide position 2036-2535 of FZD5 cDNA) hybridized to 7.5- and 3.5-kb FZD5 mRNAs, and HF5S2 probe (nucleotide position 5572-6194 of FZD5 cDNA) hybridized only to 7.5-kb FZD5 mRNA. FZD5 cDNA was polyadenylated at the nucleotide position 6534, while several FZD5 ESTs were polyadenylated at the nucleotide position 2561. The 7.5- and 3.5-kb FZD5 mRNAs were transcribed probably due to alternative splicing. FZD5 was highly expressed in fetal liver and adult pancreas, and moderately expressed in fetal lung, kidney and adult liver. Among human cancer cell lines, FZD5 was highly expressed in K-562 cells derived from chronic myelogenous leukemia. FZD5 gene, consisting of two exons, was mapped to human chromosome 2q33.3-q34 region, near the FZD7 gene and the FRA2I fragile site. These results suggest that FZD5 up-regulation might play key roles in chronic myelogenous leukemia through activation of the WNT - beta-catenin - TCF signaling pathway.
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PMID:Molecular cloning and characterization of human Frizzled-5 gene on chromosome 2q33.3-q34 region. 1140 29

FRAT1 and FRAT2 are cancer-associated genes encoding GSK-3beta-binding proteins. Over-expression of FRAT1 or FRAT2 lead to carcinogenesis through activation of WNT--beta-catenin--TCF signaling pathway. We have previously cloned and characterized FRAT2. Here, we found that FRAT1 and FRAT2 genes were clustered in the human chromosome 10q24.1 region. Blast search revealed that FRAT1 and FRAT2 genes, consisting of a single exon, were located together on human genome draft sequences AC006098.1 and AL355490.7, corresponding to the human chromosome 10q24.1 region. FRAT1 and FRAT2 genes were clustered in a tail to tail manner with an interval of about 10.7 kb. The 2.7-kb FRAT1 mRNA was relatively highly expressed in fetal brain, adult spleen, pancreas, HeLa S3 (cervical cancer), and K-562 (chronic myelogenous leukemia). FRAT1 and FRAT2 were co-expressed in 7 gastric cancer cell lines and 10 cases of primary gastric cancer, and were up-regulated together in gastric cancer cell line TMK1 and 2 cases of primary gastric cancer. These results indicated that FRAT1 and FRAT2 genes were up-regulated together in several cases of human gastric cancer. Up-regulation of FRAT1 and FRAT2 in gastric cancer might lead to carcinogenesis through activation of WNT--beta-catenin--TCF signaling pathway.
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PMID:FRAT1 and FRAT2, clustered in human chromosome 10q24.1 region, are up-regulated in gastric cancer. 1144 44

Formation of the hybrid BCR-ABL gene is responsible for >95% of chronic myeloid leukemia (CML). The alternative, downstream ABL promoter (Pa), which is usually retained in this chimeric oncogene, was reported to be methylated in many CML patients, but there has been controversy as to whether this methylation is a frequent change in bone marrow (BM) in early chronic phase (CP) or only past this stage. Also, the relevance of Pa promoter methylation to BCR-ABL expression in CML is unclear. We examined methylation of the ABL Pa promoter in uncultured BM samples and in colonies derived from their hematopoietic precursor cells by bisulfite and PCR-based assays (combined bisulfite restriction analysis and methylation-specific PCR). BM from seven CP CML patients at diagnosis had about 20-60% of the copies of the ABL Pa promoter methylated. No Pa methylation was detected in normal BMs or colonies derived from them. In contrast, most colonies from CP CML patients had Pa methylation. Surprisingly, 18-49% of the CML-derived colonies with this methylation reproducibly had no detectable BCR-ABL RNA on nested reverse transcription-PCR. Furthermore, the percentage of BCR-ABL RNA-positive colonies was almost same among the colonies not displaying Pa methylation as among the colonies in which this methylation was found. We conclude that ABL Pa methylation is often an early marker of CML in hematopoietic precursors and in total mononuclear BM cells but that it is not associated with an increased frequency of BCR-ABL RNA-positive cells. This methylation might be emblematic of cancer-associated hypermethylation elsewhere in the genome with the consequent silencing of tumor suppressor genes seen in many malignancies.
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PMID:ABL1 promoter methylation can exist independently of BCR-ABL transcription in chronic myeloid leukemia hematopoietic progenitors. 1155 72

Extract: Approximately one person a minute dies of cancer in the United States. Normalized per population size, this corresponds to a current mortality rate that is essentially identical to what it was in 1950 -- a very counterintuitive finding, given the exceptional progress recorded in the fundamental scientific understanding of malignant disease in the last 50 years. Dominant among the reasons for the unsatisfactory progress in the treatment of cancer is our general inability to treat metastatic colonies, when surgical intervention and radiation therapy are no longer available options. Systemic injection with chemical and biological agents is then the choice, with the yet-unsolved problem of selectivity in the intervention on cancer cell population, or the ability to kill cancer without causing intolerable levels of unwanted collateral effects on the patient. This treatment selectivity problem breaks down into three major, related components: the ability for the therapeutic substances to reach the cancer lesion, to recognize it as the target of its action, and to perform the therapeutic intervention solely at the site of the lesion. Many approaches have been developed to address these questions, and have met with different degrees of success. Particularly promising are the recent clinical advances recorded in the field of the so-called molecularly targeted therapies, which intervene in an exquisitely selective fashion on cancer-associated biological features, such as mutations in the receptor of epidermal growth factor in cancers of epithelial origin, or the activation of the BCR-ABL tyrosine kinase pathway in chronic myelogenous leukemia.
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PMID:Nanotechnology-enabled medicine. 2070 73

The present study was performed to provide direct evidence on copy number changes during progression from chronic phase (CP) to blastic phase (BP) in chronic myeloid leukemia (CML) through a longitudinal follow-up study. Matched CP and BP samples in three patients were analyzed using high-resolution array comparative genomic hybridization (aCGH) chips. During blastic transformation, loss of large genomic segments including 6q14.1-q22.31, chromosome 7 and 9p13.2-p21.3 were noted. Furthermore, small-sized copy number changes involving cancer-associated genes were observed. In addition, we identified a novel fusion gene consisted of PAX5 and MLLT3 (AF9). It is likely that blastic transformation of CML is a multi-step process associated accumulation of several genomic events which may largely overlap with those found in acute leukemias.
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PMID:Sequential array comparative genomic hybridization analysis identifies copy number changes during blastic transformation of chronic myeloid leukemia. 2230 91

Cancer-associated thrombosis often lacks a clear etiology. However, it is linked to a poor prognosis and represents the second-leading cause of death in cancer patients. Recent studies have shown that chromatin released into blood, through the generation of neutrophil extracellular traps (NETs), is procoagulant and prothrombotic. Using a murine model of chronic myelogenous leukemia, we show that malignant and nonmalignant neutrophils are more prone to NET formation. This increased sensitivity toward NET generation is also observed in mammary and lung carcinoma models, suggesting that cancers, through a systemic effect on the host, can induce an increase in peripheral blood neutrophils, which are predisposed to NET formation. In addition, in the late stages of the breast carcinoma model, NETosis occurs concomitant with the appearance of venous thrombi in the lung. Moreover, simulation of a minor systemic infection in tumor-bearing, but not control, mice results in the release of large quantities of chromatin and a prothrombotic state. The increase in neutrophil count and their priming is mediated by granulocyte colony-stimulating factor (G-CSF), which accumulates in the blood of tumor-bearing mice. The prothrombotic state in cancer can be reproduced by treating mice with G-CSF combined with low-dose LPS and leads to thrombocytopenia and microthrombosis. Taken together, our results identify extracellular chromatin released through NET formation as a cause for cancer-associated thrombosis and unveil a target in the effort to decrease the incidence of thrombosis in cancer patients.
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PMID:Cancers predispose neutrophils to release extracellular DNA traps that contribute to cancer-associated thrombosis. 2282 26

Studies on chronic myeloid leukemia (CML) have served as a paradigm for cancer research and therapy. These studies involve the identification of the first cancer-associated chromosomal abnormality and the subsequent development of tyrosine kinase inhibitors (TKIs) that inhibit BCR-ABL kinase activity in CML. It becomes clear that leukemia stem cells (LSCs) in CML which are resistant to TKIs, and eradication of LSCs appears to be extremely difficult. Therefore, one of the major issues in current CML biology is to understand the biology of LSCs and to investigate why LSCs are insensitive to TKI monotherapy for developing curative therapeutic strategies. Studies from our group and others have revealed that CML LSCs form a hierarchy similar to that seen in normal hematopoiesis, in which a rare stem cell population with limitless self-renewal potential gives rise to progenies that lack such potential. LSCs also possess biological features that are different from those of normal hematopoietic stem cells (HSCs) and are critical for their malignant characteristics. In this review, we summarize the latest progress in CML field, and attempt to understand the molecular mechanisms of survival regulation of LSCs.
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PMID:Molecular mechanisms for survival regulation of chronic myeloid leukemia stem cells. 2348 80

Chronic myeloid leukemia (CML) is a myeloproliferative disorder derived from a hematopoietic stem cell (HSC), harboring Philadelphia chromosome (Ph chromosome). Formation of the Ph chromosome is caused by a reciprocal translocation between the chromosomes 9 and 22 t(9;22)(q34;q11), resulting in a fusion protein known as BCR-ABL which has constitutive tyrosine kinase activity and promotes the proliferation of leukemia cells via multiple mechanisms. Studies on CML have led to the identification of the first cancer-associated chromosomal abnormality and the subsequent development of tyrosine kinase inhibitors (TKIs) that inhibit BCR-ABL kinase activity in CML. It has become clear that leukemia stem cells (LSCs) in CML are insensitive to inhibition by TKIs, and eradication of LSCs appears to be difficult. Therefore, some of the major issues in current CML therapy are to understand the biology of LSCs and to investigate why LSCs are insensitive to TKIs for developing curative therapeutic strategies. In this regard, application of mouse models recapitulating human CML disease will be critical. In this chapter, we describe methods for induction of CML in mice with BCR-ABL.
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PMID:Induction of Chronic Myeloid Leukemia in Mice. 2758 Nov 35

Chronic myelogenous leukemia (CML) is a myeloproliferative disorder characterized by increased proliferation or abnormal accumulation of granulocytic cell line without the depletion of their capacity to differentiate. A reciprocal chromosomal translocation proceeding to the 'Philadelphia chromosome', involving the ABL proto-oncogene and BCR gene residing on Chromosome 9 and 22 respectively, is observed to be attributed to CML pathogenesis. Recent studies have been unraveling the crucial role of genomic 'dark matter' or the non-coding repertoire in cancer initiation and progression. The intricate cross-talk between competitive endogenous RNAs (ceRNAs) provides a scaffold to systematically functionalize the miRNA response element harboring non-coding RNAs and incorporate them with the protein-coding RNA dimension in complex ceRNA networks. This network of coding and non-coding transcriptome linked by shared miRNAs evidently offers a platform to elucidate the complex regulatory interactions at the post-transcriptional level in human cancers. In this context, analyzing CML, from the perspective of the ceRNA hypothesis, surely craves intensive attention and a comprehensive discussion. Here, we performed RNA-seq data analysis to retrieve Lymphoblastoid and CML coding as well as non-coding repertoire and constructed a ceRNA network for the CML cell line, considering the non-cancer lymphoblastoid cell line as the control. We investigated if any alteration exists in the ceRNA landscape of the transcripts which are exhibiting differential expression across the two cell lines and observed that the major ceRNA regulators vary in cancer network when compared with the Lymphoblastoid network. The top ranked significant functional modules in the ceRNA network display cancer associated attributes and reveal putative regulators in CML pathogenesis.
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PMID:Deciphering the cross-talking of human competitive endogenous RNAs in K562 chronic myelogenous leukemia cell line. 2773 Feb 41


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