UMLS:C0023418 - FACTA Search

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Query: UMLS:C0023418 (leukemia)
93,477 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The retinoblastoma protein-interacting zinc finger gene (RIZ) is a zinc-finger type DNA binding protein and is postulated as a member of the nuclear protein-methyltransferase superfamily. RIZ gene encodes for two proteins, RIZ1 and RIZ2. While RIZ1 contains the N-terminal PR (PRDI-BF1 and RIZ homologous)-domain, RIZ2 lacks it. RIZ1 is now considered as a tumor suppressor. We analyzed nucleotide alteration of RIZ gene in human leukemia. The results revealed a single nucleotide polymorphism (SNP), T1704 to A, near the conserved Rb-binding domain, leading to an amino acid change, Asp283 to Glu. Interestingly, 17 of 21 leukemia cell lines are homozygous for the T1704 allele whereas only 2 of 20 normal subjects are homozygous for the allele. In addition, one base pair deletion in the poly (A)9 tract in the coding region near the C-terminal zinc-fingers was identified, resulting in frameshift, in 1 out of 17 leukemia cell lines, but no mutation in samples from 15 patients with acute lymphoblastic leukemia (ALL) and 6 patients with adult T cell leukemia (ATL). In the PR or SH3 (src homology 3) domain of the RIZ gene, no mutation was found. These findings suggest that RIZ may be a possible target of structural alteration leading to leukemia.
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PMID:Nucleotide alteration of retinoblastoma protein-interacting zinc finger gene, RIZ, in human leukemia. 1200 76

Proteins encoded by Polycomb and Trithorax-group (Pc-G and Trx-G) genes regulate developmental fates by maintaining or repressing HOX gene expression, respectively. In a search for candidate myeloid leukemia tumor suppressor genes from a approximately 2.5 Mb commonly-deleted segment within chromosome band 7q22, we identified a novel human Trithorax (Trx) family member named MLL5. Trx-G genes encode proteins that modulate transcriptional programs through protein-protein interactions that are mediated by PHD and SET domains, and by binding to DNA via A-T hooks and methyltransferase homology motifs. MLL5 is a homolog of the Drosophila gene CG9007; it encodes a 6.5 kb mRNA that is expressed widely. MLL5 includes a SET domain and a single PHD finger, but lacks A-T hooks and methyltransferase homology domains that are found in MLL. The leukemia cell line RCV-ACV-A carries a heterozygous missense mutation within the PHD domain; however, no mutations within the MLL5 coding region were detected in primary leukemias. MLL5 is a novel mammalian Trx-G gene that might modulate transcription by protein association.
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PMID:MLL5, a homolog of Drosophila trithorax located within a segment of chromosome band 7q22 implicated in myeloid leukemia. 1210 24

There are a limited number of reports of acute myeloid leukemia (AML) with t(10;11)(q22;q23). We showed that the MLL gene on 11q23 was fused to the LCX (leukemia-associated protein with a CXXC domain) gene on 10q22 in a de novoadult AML-M2 with trilineage dysplasia having t(10;11)(q22;q23). LCX consisted of at least 12 exons and was predicted to encode a 2136-amino-acid protein with an estimated molecular mass of 235.3 kDa. The LCX protein had a zinc-binding CXXC domain that MLL also contains within a methyltransferase domain, three nuclear localization signals, an alpha-helical coiled-coil region, and two homologous regions to CG2083 proteins of Drosophila melanogaster. We found approximately 12-, 9.5-, and 7.5-kb transcripts of LCX. Expression of the 7.5-kb transcript was detected in fetal heart, lung, and brain, and in adult skeletal muscle, thymus, and ovary. Expression of the 9.5-kb transcript was detected in fetal lung and brain and in adult ovary. Expression of the 12-kb transcript was detected in fetal heart and brain and in adult thymus and ovary. LCX was expressed in 8 of 22 leukemic cell lines, but not in EBV-induced normal B-cell lines. The MLL-LCX fusion protein lacked a CXXC domain of LCX, but retained an alpha-helical coiled-coil region at the COOH terminus, similar to MLL-SEPTING, MLL-CDCREL1, MLL-AF1p/Eps15, and MLL-AF6, which suggests that these fusion proteins are involved in the pathogenesis of 11q23-associated leukemia through similar mechanisms.
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PMID:LCX, leukemia-associated protein with a CXXC domain, is fused to MLL in acute myeloid leukemia with trilineage dysplasia having t(10;11)(q22;q23). 1212 44

The retinoblastoma protein-interacting zinc finger gene (RIZ), a member of the nuclear protein methyltransferase superfamily, is characterized by the presence of the N-terminal PR domain. The RIZ gene encodes for two proteins, RIZ1 and RIZ2. While RIZ1 contains the PR (PRDI-BF1 and RIZ homologous) domain, RIZ2 lacks it. RIZ gene expression is altered in a variety of human cancers and RIZ1 is now considered to be a candidate tumour suppressor. To investigate the role of RIZ in leukaemogenesis, we analysed the differential expression of RIZ1 and RIZ2 by quantitative real-time reverse-transcription polymerase chain reaction assay. Our results showed that the expression of RIZ1 was significantly decreased in leukaemia cell lines (14 out of 17, 82%) and in patients with acute myeloblastic leukaemia (eight out of 14, 57%). In contrast, RIZ2 expression was increased in patients with acute lymphoblastic leukaemia (eight out of 11, 73%), compared with normal bone marrow cells. These findings indicate that suppression of RIZ1 expression or enhancement of RIZ2 expression may have an important role in leukaemogenesis.
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PMID:Altered expression of retinoblastoma protein-interacting zinc finger gene, RIZ, in human leukaemia. 1247 71

To explore the possibility of a new therapeutic strategy for leukemia by intervening in the DNA methylation to re-express p15 suppressor gene, methylation inhibitors, 5-Aza-2'-deoxycytidine (5-Aza-CdR) and cell differentiation agent (CDAII) were used to treat myelogenous leukemia cell line KG1a in which p15 gene expression was suppressed due to DNA hypermethylation. The biological characteristics of KG1a cells untreated or treated with the agents were investigated and analyzed using morphology, methylation specific-PCR (MSP), (3)H-labeled microassay technique, restriction endonuclease reaction, flow cytometry and immunofluorescence methods. The results indicated that both agents showed concentration-dependent and time-dependent inhibition of cell proliferation. 5-Aza-CdR and CDAII induced apoptosis and cell differentiation with G(2) and G(0)/G(1) arrest respectively. Furthermore, DNA methyltransferase activity and level of methylation in genomic DNA were decreased and p15 protein was re-expressed partially. It is concluded that it is possible to treat leukemia by intervening in the DNA methylation using methyltransferase inhibitors and it is worth to make a thorough study on mechanism of the new strategy.
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PMID:[Inhibitory effect on proliferation of KG1a cell line by methyltransferase inhibitors]. 1251 59

Incorporation of drug resistance genes into gene vectors has 2 important roles in stem cell gene therapy: increasing the proportion of gene-corrected cells in vivo (ie, in vivo selection) and marrow protection to permit higher or more tightly spaced doses of chemotherapy in the treatment of malignant diseases. We studied in a clinically relevant canine model of gene therapy the P140K mutant of the drug resistance gene methylguanine methyltransferase (MGMT), which encodes a DNA-repair enzyme that confers resistance to the combination of the MGMT inhibitor O(6)-benzylguanine (O(6)BG) and nitrosourea drugs such as carmustine and methylating agents such as temozolomide. Two dogs received MGMT(P140K)-transduced autologous CD34(+)-selected cells. After stable engraftment, gene marking in granulocytes was between 3% and 16% in the 2 animals, respectively. Repeated administration of O(6)BG and temozolomide resulted in a multilineage increase in gene-modified repopulating cells with marking levels of greater than 98% in granulocytes. MGMT(P140K) overexpression prevented the substantial myelosuppression normally associated with this drug combination. Importantly, hematopoiesis remained polyclonal throughout the course of the study. Extrahematopoietic toxicity was minimal, and no signs of myelodysplasia or leukemia were detected. These large-animal data support the evaluation of MGMT(P140K) in conjunction with O(6)BG and temozolomide in clinical trials.
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PMID:Polyclonal chemoprotection against temozolomide in a large-animal model of drug resistance gene therapy. 1549 21

Rearrangements of the mixed-lineage leukemia gene MLL1 (MLL, HRX, ALL1), the human homologue of the Drosophila gene trithorax, are associated with aggressive acute leukemias in both children and adults. Transformation by rearranged forms of MLL1, including in-frame fusion proteins, partial tandem duplications, and amplification of MLL1 through upregulation of Hox gene and cofactor expression apparently results in a block in hematopoietic differentiation. MLL1 regulates Hox gene expression via direct promoter binding and histone H3 Lys 4 methylation mediated by the intrinsic methyltransferase activity of the SET domain. Mll1 knockout leads to loss of Hox gene expression, defects in hematopoiesis, and embryonic lethality. A close homologue, MLL2 is amplified in some solid tumors. MLL2 also has histone H3 Lys 4 methyltransferase activity that is dependent on menin, a protein mutated in multiple neoplasia type I (MEN1) and which is required for normal Hox expression. These findings underscore the importance of the MLL histone methyltransferases in development and disease.
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PMID:Mechanisms of transformation by MLL. 1566 55

Epigenetic modifications play an important role in human cancer. One such modification, histone methylation, contributes to human cancer through deregulation of cancer-relevant genes. The yeast Dot1 and its human counterpart, hDOT1L, methylate lysine 79 located within the globular domain of histone H3. Here we report that hDOT1L interacts with AF10, an MLL (mixed lineage leukemia) fusion partner involved in acute myeloid leukemia, through the OM-LZ region of AF10 required for MLL-AF10-mediated leukemogenesis. We demonstrate that direct fusion of hDOT1L to MLL results in leukemic transformation in an hDOT1L methyltransferase activity-dependent manner. Transformation by MLL-hDOT1L and MLL-AF10 results in upregulation of a number of leukemia-relevant genes, such as Hoxa9, concomitant with hypermethylation of H3-K79. Our studies thus establish that mistargeting of hDOT1L to Hoxa9 plays an important role in MLL-AF10-mediated leukemogenesis and suggests that the enzymatic activity of hDOT1L may provide a potential target for therapeutic intervention.
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PMID:hDOT1L links histone methylation to leukemogenesis. 1585 Oct 25

To study the methylation in the promoter of LRP15 gene and its relationship with gene expression and to explore the possible mechanism of regulating LRP15 gene methylation, the methylation in the promoter of LRP15 gene in K562 cell line was detected by MS-PCR. Then K562 was exposed to 5-aza-2'-deoxycytidine (CdR) and trichostatin (TSA), to determine whether the silencing of LRP15 gene by de novo methylation could be reversed. As a result, it was confirmed by MS-PCR that the promoter of LRP15 was hypermathylated in K562 cell line, and lost its transcription activity. After CdR, with or without TSA, the silencing of LRP15 gene by de novo methylation can be reversed. Observation demonstrated that the expression of LRP15 was controlled by methylation in its promoter in K562. It is suggested that methyltransferase inhibitor and deacetylase inhibitor may be effective agents in leukemia therapy.
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PMID:[Analysis of the methylation in the promoter of LRP15 gene and its expression]. 1585 74

Chromosome translocations disrupting the MLL gene are associated with various hematologic malignancies but are particularly common in infant and secondary therapy-related acute leukemias. The normal MLL-encoded protein is an essential component of a supercomplex with chromatin-modulating activity conferred by histone acetylase and methyltransferase activities, and the protein plays a key role in the developmental regulation of gene expression, including Hox gene expression. In leukemia, this function is subverted by breakage, recombination, and the formation of chimeric fusion with one of many alternative partners. Such MLL translocations result in the replacement of the C-terminal functional domains of MLL with those of a fusion partner, yielding a newly formed MLL chimeric protein with an altered function that endows hematopoietic progenitors with self-renewing and leukemogenic activity. This potent impact of the MLL chimera can be attributed to one of 2 kinds of activity of the fusion partner: direct transcriptional transactivation or dimerization/oligomerization. Key unresolved issues currently being addressed include the set of target genes for MLL fusions, the stem cell of origin for the leukemias, the role of additional secondary mutations, and the origins or etiology of the MLL gene fusions themselves. Further elaboration of the biology of MLL gene-associated leukemia should lead to novel and specific therapeutic strategies.
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PMID:Molecular pathogenesis of MLL-associated leukemias. 1610 54

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