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)

RUNX family members are DNA-binding transcription factors that regulate the expression of genes involved in cellular differentiation and cell cycle progression. The RUNX family includes three mammalian RUNX proteins (RUNX1, -2, -3) and two homologues in Drosophila. Experiments in Drosophila and mouse indicate that the RUNX proteins are required for gene silencing of engrailed and CD4, respectively. RUNX-mediated repression involves recruitment of corepressors such as mSin3A and Groucho as well as histone deacetylases. Furthermore, RUNX1 and RUNX3 associate with SUV39H1, a histone methyltransferase involved in gene silencing. RUNX1 is frequently targeted in human leukemia by chromosomal translocations that fuse the DNA-binding domain of RUNX1 to other transcription factors and corepressor molecules. The resulting leukemogenic fusion proteins are transcriptional repressors that form stable complexes with corepressors, histone deacetylases and histone methyltransferases. Thus, transcriptional repression and gene silencing through RUNX1 contribute to the mechanisms of leukemogenesis of the fusion proteins. Therapies directed at the associated cofactors may be beneficial for treatment of these leukemias.
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PMID:Role of RUNX family members in transcriptional repression and gene silencing. 1515 76

MLL (for mixed-lineage leukemia) is a proto-oncogene that is mutated in a variety of human leukemias. Its product, a homolog of Drosophila melanogaster trithorax, displays intrinsic histone methyltransferase activity and functions genetically to maintain embryonic Hox gene expression. Here we report the biochemical purification of MLL and demonstrate that it associates with a cohort of proteins shared with the yeast and human SET1 histone methyltransferase complexes, including a homolog of Ash2, another Trx-G group protein. Two other members of the novel MLL complex identified here are host cell factor 1 (HCF-1), a transcriptional coregulator, and the related HCF-2, both of which specifically interact with a conserved binding motif in the MLL(N) (p300) subunit of MLL and provide a potential mechanism for regulating its antagonistic transcriptional properties. Menin, a product of the MEN1 tumor suppressor gene, is also a component of the 1-MDa MLL complex. Abrogation of menin expression phenocopies loss of MLL and reveals a critical role for menin in the maintenance of Hox gene expression. Oncogenic mutant forms of MLL retain an ability to interact with menin but not other identified complex components. These studies link the menin tumor suppressor protein with the MLL histone methyltransferase machinery, with implications for Hox gene expression in development and leukemia pathogenesis.
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PMID:Leukemia proto-oncoprotein MLL forms a SET1-like histone methyltransferase complex with menin to regulate Hox gene expression. 1519 22

The importance of epigenetic modifications in carcinogenesis has been a source of controversy for some time. There is little doubt that changes in genomic hypermethylation contribute to the silencing of tumor suppressor genes. Furthermore, recent studies have also identified the significance of genomic hypomethylation associated with chromosomal instability and tumorigenesis. One of the most perplexing questions regarding epigenetic modifications and leukemogenesis is the relationship with DNA methyltransferases (DNMT's). The primary function of the DNMT enzymes is to methylate genomic DNA, whereas the methyl-CpG binding domain proteins (MBD) interpret this methylation signal and regulate gene expression and chromatin behavior. In this study we analyse these gene families by quantitative real-time PCR to investigate whether expression levels and the B-cell chronic lymphocytic leukemia (B-CLL) phenotype are associated. Furthermore, given the epigenetic crosstalk between genome stability and the histone chromatin code we have analysed eukaryotic histone methyltransferase (Eu-HMTaseI). Surprisingly, we did not observe significant changes in DNMT1 expression in B-CLL cases when compared to normal lymphocytes, regardless of whether we normalise against GAPDH or PCNA as reference standards. Indeed, expression of the maintenance and de novo methylases were independently regulated. Of particular note was the significant down regulation of DNMT3b. Furthermore, we observed a positive correlation between HMTaseI expression levels and stage of leukemia suggesting that changes in the methylation patterns in B-CLL may represent deregulation of the epigenetic repertoire that also include the methylation dependent binding proteins, MBD2 and MeCP2. We envisage changes in the epigenetic program are multifactorial in nature and postulate that the prevalent genomic methylases just one component of a larger epigenetic repertoire.
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PMID:Expression analysis of the epigenetic methyltransferases and methyl-CpG binding protein families in the normal B-cell and B-cell chronic lymphocytic leukemia (CLL). 1546 27

Mutations in the MEN1 gene are associated with the multiple endocrine neoplasia syndrome type 1 (MEN1), which is characterized by parathyroid hyperplasia and tumors of the pituitary and pancreatic islets. The mechanism by which MEN1 acts as a tumor suppressor is unclear. We have recently shown that menin, the MEN1 protein product, interacts with mixed lineage leukemia (MLL) family proteins in a histone methyltransferase complex including Ash2, Rbbp5, and WDR5. Here, we show that menin directly regulates expression of the cyclin-dependent kinase inhibitors p27Kip1 and p18Ink4c. Menin activates transcription by means of a mechanism involving recruitment of MLL to the p27Kip1 and p18Ink4c promoters and coding regions. Loss of function of either MLL or menin results in down-regulation of p27Kip1 and p18Ink4c expression and deregulated cell growth. These findings suggest that regulation of cyclin-dependent kinase inhibitor transcription by cooperative interaction between menin and MLL plays a central role in menin's activity as a tumor suppressor.
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PMID:Menin and MLL cooperatively regulate expression of cyclin-dependent kinase inhibitors. 1564 Mar 49

The mixed-lineage leukemia (MLL1/ALL-1/HRX) histone methyltransferase is involved in the epigenetic maintenance of transcriptional memory and the pathogenesis of human leukemias. To understand its role in cell type specification, we determined the human genomic binding sites of MLL1. We found that MLL1 functions as a human equivalent of yeast Set1. Like Set1, MLL1 localizes with RNA polymerase II (Pol II) to the 5' end of actively transcribed genes, where histone H3 lysine 4 trimethylation occurs. Consistent with this global role in transcription, MLL1 also localizes to microRNA (miRNA) loci that are involved in leukemia and hematopoiesis. In contrast to the 5' proximal binding behavior at most protein-coding genes, MLL1 occupies an extensive domain within a transcriptionally active region of the HoxA cluster. The ability of MLL1 to serve as a start site-specific global transcriptional regulator and to participate in larger chromatin domains at the Hox genes reveals dual roles for MLL1 in maintenance of cellular identity.
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PMID:Global and Hox-specific roles for the MLL1 methyltransferase. 1594 28

The Mixed-Lineage Leukemia (MLL) protein is a histone methyltransferase that is mutated in clinically and biologically distinctive subsets of acute leukemia. MLL normally associates with a cohort of highly conserved cofactors to form a macromolecular complex that includes menin, a product of the MEN1 tumor suppressor gene, which is mutated in heritable and sporadic endocrine tumors. We demonstrate here that oncogenic MLL fusion proteins retain an ability to stably associate with menin through a high-affinity, amino-terminal, conserved binding motif and that this interaction is required for the initiation of MLL-mediated leukemogenesis. Furthermore, menin is essential for maintenance of MLL-associated but not other oncogene induced myeloid transformation. Acute genetic ablation of menin reverses aberrant Hox gene expression mediated by MLL-menin promoter-associated complexes, and specifically abrogates the differentiation arrest and oncogenic properties of MLL-transformed leukemic blasts. These results demonstrate that a human oncoprotein is critically dependent on direct physical interaction with a tumor suppressor protein for its oncogenic activity, validate a potential target for molecular therapy, and suggest central roles for menin in altered epigenetic functions underlying the pathogenesis of hematopoietic cancers.
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PMID:The menin tumor suppressor protein is an essential oncogenic cofactor for MLL-associated leukemogenesis. 1623 40

Leukemia-associated fusion proteins establish aberrant transcriptional programs, which result in the block of hematopoietic differentiation, a prominent feature of the leukemic phenotype. The dissection of the mechanisms of deregulated transcription by leukemia fusion proteins is therefore critical for the design of tailored antileukemic strategies, aimed at reestablishing the differentiation program of leukemic cells. The acute promyelocytic leukemia (APL)-associated fusion protein PML-retinoic acid receptor (RAR) behaves as an aberrant transcriptional repressor, due to its ability to induce chromatin modifications (histone deacetylation and DNA methylation) and silencing of PML-RAR target genes. Here, we indicate that the ultimate result of PML-RAR action is to impose a heterochromatin-like structure on its target genes, thereby establishing a permanent transcriptional silencing. This effect is mediated by the previously described association of PML-RAR with chromatin-modifying enzymes (histone deacetylases and DNA methyltransferases) and by recruitment of the histone methyltransferase SUV39H1, responsible for trimethylation of lysine 9 of histone H3.
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PMID:Recruitment of the histone methyltransferase SUV39H1 and its role in the oncogenic properties of the leukemia-associated PML-retinoic acid receptor fusion protein. 1644 42

Multiple endocrine neoplasia type I (MEN1) is a familial cancer syndrome characterized primarily by tumors of multiple endocrine glands. The gene for MEN1 encodes a ubiquitously expressed tumor suppressor protein called menin. Menin was recently shown to interact with several components of a trithorax family histone methyltransferase complex including ASH2, Rbbp5, WDR5, and the leukemia proto-oncoprotein MLL. To elucidate menin's role as a tumor suppressor and gain insights into the endocrine-specific tumor phenotype in MEN1, we mapped the genomic binding sites of menin, MLL1, and Rbbp5, to approximately 20,000 promoters in HeLa S3, HepG2, and pancreatic islet cells using the strategy of chromatin-immunoprecipitation coupled with microarray analysis. We found that menin, MLL1, and Rbbp5 localize to the promoters of thousands of human genes but do not always bind together. These data suggest that menin functions as a general regulator of transcription. We also found that factor occupancy generally correlates with high gene expression but that the loss of menin does not result in significant changes in most transcript levels. One exception is the developmentally programmed transcription factor, HLXB9, which is overexpressed in islets in the absence of menin. Our findings expand the realm of menin-targeted genes several hundred-fold beyond that previously described and provide potential insights to the endocrine tumor bias observed in MEN1 patients.
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PMID:Genome-wide analysis of menin binding provides insights into MEN1 tumorigenesis. 1660 56

Trimethylation of histone H3 Lys4 (H3K4) is associated with transcriptional activation. One of the chief effectors of H3K4 methylation is mixed-lineage leukemia 1 (MLL1), a gene that is disrupted by chromosomal translocation in acute leukemia and a master regulator of Hox and other genes. In a recent paper, core components of the human MLL histone methyltransferase (MT) complex were found to form a structural platform, with one component (WDR5) mediating association between the specific histone H3K4 substrate and the MT. This novel regulatory mechanism, which is conserved from yeast to human, is required for both methylation and downstream target gene transcription.
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PMID:MLL core components give the green light to histone methylation. 1716 35

Originally identified as an essential component of the herpes simplex virus immediate early (IE) gene enhancer complex, the transcriptional coactivator host cell factor-1 (HCF-1) has been implicated in a broad range of cellular regulatory circuits. The protein mediates activation through multiple interactions with transcriptional activators, coactivators, and chromatin remodeling complexes. However, the mechanisms involved in HCF-1-dependent transcriptional stimulation were undefined. By using a minimal HCF-1-dependent promoter and a model activator, the varicella zoster IE62 protein, it was determined that HCF-1 was not required for the assembly of the RNAPII basal complex, which depended solely on IE62 in conjunction with the cellular factor Sp1. In contrast, HCF-1 was required for recruitment of the histone methyltransferases Set1 and MLL1 (mixed-lineage leukemia 1), leading to histone H3K4 trimethylation and transcriptional activation. Similarly, in a varicella zoster virus lytic infection, HCF-1, Set1, and MLL1 were recruited to the viral genomic IE promoter, suggesting an essential role for HCF-1 in chromatin modification and remodeling during initiation of lytic infection. The results indicate that one biological rationale for the incorporation of the viral IE activators in the viral particle is to recruit HCF-1/histone methyltransferase complexes and promote assembly of the viral IE gene promoters into transcriptionally active chromatin. These studies also contribute to the model whereby the induced nuclear transport of HCF-1 in sensory neurons may be critical to the reactivation of latent herpesviruses by promoting the activation of chromatin modifications.
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PMID:The coactivator host cell factor-1 mediates Set1 and MLL1 H3K4 trimethylation at herpesvirus immediate early promoters for initiation of infection. 1757 10

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