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 inv(16) and t(16;16) characterize a subgroup of acute myelomonocytic leukemia (AML) with distinct morphological features and a favorable prognosis. Both cytogenetic abnormalities result in a fusion of CBF beta at 16q22 and MYH11 gene at 16p13, whose detection by PCR and fluorescence in situ hybridization (FISH) is useful for diagnosis and monitoring of the disease. Variant translocations of inv(16)/t(16;16) are very rare and whether they are also associated with a favorable prognosis is unknown. We report a patient presenting with typical AML-M4Eo and a three-way translocation of inv(16) involving 16p13, 16q22, and 3q22. FISH studies on bone marrow (BM) chromosomes using CBFB and MYH11 DNA probes revealed a fusion of CBFB and MYH11 on 16q of the der(16), as well as a signal from MYH11 on 16p but not from CBFB; normal signals for both probes were present on the normal 16. Neither of these labeled probes was on the der(3), but the translocation between the der(3) and der(16) was confirmed by using a chromosome 16 painting probe. Molecular analysis of BM cells using RT-PCR identified a CBFB-MYH11 fusion transcript type D. After achieving complete remission, the patient relapsed. We conclude that FISH and PCR are feasible tools to distinguish cases with variant abnormalities of inv(16) from cases with other chromosome 16 abnormalities. Variant abnormalities of inv(16) may be not associated with favorable prognosis.
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PMID:Variant three-way translocation of inversion 16 in AML-M4Eo confirmed by fluorescence in situ hybridization analysis. 1021 58

Brother and Big brother were isolated as Runt-interacting proteins and are homologous to CBF(beta), which interacts with the mammalian CBF(alpha) Runt-domain proteins. In vitro experiments indicate that Brother family proteins regulate the DNA binding activity of Runt-domain proteins without contacting DNA. In both mouse and human there is genetic evidence that the CBF(alpha) and CBF(beta) proteins function together in hematopoiesis and leukemogenesis. Here we demonstrate functional interactions between Brother proteins and Runt domain proteins in Drosophila. First, we show that a specific point mutation in Runt that disrupts interaction with Brother proteins but does not affect DNA binding activity is dysfunctional in several in vivo assays. Interestingly, this mutant protein acts dominantly to interfere with the Runt-dependent activation of Sxl-lethal transcription. To investigate further the requirements for Brother proteins in Drosophila development, we examine the effects of expression of a Brother fusion protein homologous to the dominant negative CBF(beta)::SMMHC fusion protein that is associated with leukemia in humans. This Bro::SMMHC fusion protein interferes with the activity of Runt and a second Runt domain protein, Lozenge. Moreover, we find that the effects of lozenge mutations on eye development are suppressed by expression of wild-type Brother proteins, suggesting that Brother/Big brother dosage is limiting in this developmental context. Results obtained when Runt is expressed in developing eye discs further support this hypothesis. Our results firmly establish the importance of the Brother and Big brother proteins for the biological activities of Runt and Lozenge, and further suggest that Brother protein function is not restricted to enhancing DNA-binding.
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PMID:Differential interactions between Brother proteins and Runt domain proteins in the Drosophila embryo and eye. 1039 11

The development of mature granulocytes from hematopoietic precursor cells is controlled by a myriad of transcription factors which regulate the expression of essential genes, including those encoding growth factors and their receptors, enzymes, adhesion molecules, and transcription factors themselves. In particular, C/EBPalpha, PU.1, CBF, and c-Myb have emerged as critical players during early granulopoiesis. These transcription factors interact with one another as well as other factors to regulate the expression of a variety of genes important in granulocytic lineage commitment. An important goal remains to understand in greater detail how these various factors act in concert with signals emanating from cytokine receptors to influence the various steps of maturation, from the pluripotent hematopoietic stem cell, to a committed myeloid progenitor, to myeloid precursors, and ultimately to mature granulocytes.
Leukemia 2000 Jun
PMID:Regulation of granulopoiesis by transcription factors and cytokine signals. 1086 62

The chromosomal inversion (16)(p13q22), which is associated with the M4-eosinophilia subtype of human acute myeloid leukemia, causes the fusion of two distinct genes. The polypeptide encoded by the chimeric gene, PEBP2p/CBFp-SMMHC, retains the ability to interact with, and dominantly interfere with the function of proteins possessing the Runt homology domain. The Runt protein homologs constitute the DNA binding subunit of the PEBP2/CBF transcription factor. We examined the subcellular localization of PEBP2beta/CBFbeta-SMMHC, as well as that of Runt protein homologs in leukemic cells carrying inversion 16 by immunoblot analysis. A significant amount of the PEBPbeta/CBFbeta-SMMHC protein was recovered from the nuclear fraction along with the Runt protein homologs. Furthermore, some of both polypeptides was retained in the DNA pellet that represents the material remaining after extraction of nuclear fraction with high salt. These observations suggest that the so-called dominant interfering effect of PEBPbeta/CBFbeta-SMMHC on PEBP2/CBF occurs inside the nucleus. In addition, we could detect PEBP2beta/CBFbeta-SMMHC in the cytoplasmic membrane fraction as well. The function of this membrane-located PEBP2beta/CBFbeta-SMMHC, if any, appears to be unrelated to that of Runt protein homologs.
Leukemia 2000 Jul
PMID:The PEBP2beta/CBF beta-SMMHC chimeric protein is localized both in the cell membrane and nuclear subfractions of leukemic cells carrying chromosomal inversion 16. 1091 50

We have determined the structure, at 2.6 A resolution, of the AML1 (Runx1) Runt domain--CBF beta--DNA ternary complex, the most common target for mutations in human leukemia. The structure reveals that the Runt domain DNA binding mechanism is unique within the p53 family of transcription factors. The extended C-terminal 'tail' and 'wing' elements adopt a specific DNA-bound conformation that clamps the phosphate backbone between the major and minor grooves of the distorted B-form DNA recognition site. Furthermore, the extended 'tail' mediates most of the NF-kappa B/Rel-like base-specific contacts in the major groove. The structure clearly explains the molecular basis for the loss of DNA binding function of the Runt domain--CBF beta complex as a consequence of the human disease-associated mutations in leukemogenesis and cleidocranial dysplasia.
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PMID:The leukemia-associated AML1 (Runx1)--CBF beta complex functions as a DNA-induced molecular clamp. 1127 60

TEL and AML1 genes occur in a markedly high number of different aberrations in haematological malignancies. Besides the AML1, TEL is often fused to genes, which encod thyrosin-kinases. AML1 gene is a part of CBF transcription factor. AML1 can be altered in childhood acute lymphoblastic leukaemia (ALL) and also in a substantial number of acute myeloid leukaemias (most frequently as an AML1/ETO fusion). TEL/AML1 fusion gene (derived from t(12;21)(p13;q22) translocation) became recently one of the most important genetic aberrations in children with ALL. TEL/AML1 act presumably as dominant inhibitors of the second AML1 allele and thus they block transcription of genes dependent on CBF factor. Childhood ALL with TEL/AML1 hybrid gene is very frequent (approximately 22% of overall childhood ALL in the Czech Republic) and patients with this fusion form relatively homogenous group. These children are diagnosed mostly in pre-school age as a B cell precursor leukaemias and they have very good treatment results.
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PMID:[The role of TEL and AML1 genes in the pathogenesis of hematologic malignancies]. 1134 99

The AML1-CBF beta transcription factor complex is the most frequent target of specific chromosome translocations in human leukemia. The MOZ gene, which encodes a histone acetyltransferase (HAT), is also involved in some leukemia-associated translocations. We report here that MOZ is part of the AML1 complex and strongly stimulates AML1-mediated transcription. The stimulation of AML1-mediated transcription is independent of the inherent HAT activity of MOZ. Rather, a potent transactivation domain within MOZ appears to be essential for stimulation of AML1-mediated transcription. MOZ, as well as CBP and MOZ-CBP, can acetylate AML1 in vitro. The amount of AML1-MOZ complex increases during the differentiation of M1 myeloid cells into monocytes/macrophages, suggesting that the AML1-MOZ complex might play a role in cell differentiation. On the other hand, the MOZ-CBP fusion protein, which is created by the t(8;16) translocation associated with acute monocytic leukemia, inhibits AML1-mediated transcription and differentiation of M1 cells. These results suggest that MOZ-CBP might induce leukemia by antagonizing the function of the AML1 complex.
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PMID:Activation of AML1-mediated transcription by MOZ and inhibition by the MOZ-CBP fusion protein. 1174 95

Chromosomal translocations involving the human CBFB gene, which codes for the non-DNA binding subunit of CBF (CBF beta), are associated with a large percentage of human leukemias. The translocation inv(16) that disrupts the CBFB gene produces a chimeric protein composed of the heterodimerization domain of CBF beta fused to the C-terminal coiled-coil domain from smooth muscle myosin heavy chain (CBF beta-SMMHC). Isothermal titration calorimetry results show that this fusion protein binds the Runt domain from Runx1 (CBF alpha) with higher affinity than the native CBF beta protein. NMR studies identify interactions in the CBF beta portion of the molecule, as well as the SMMHC coiled-coil domain. This higher affinity provides an explanation for the dominant negative phenotype associated with a knock-in of the CBFB-MYH11 gene and also helps to provide a rationale for the leukemia-associated dysregulation of hematopoietic development that this protein causes.
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PMID:Altered affinity of CBF beta-SMMHC for Runx1 explains its role in leukemogenesis. 1217 39

The AML1 transcription factor, identified by the cloning of the translocation t(8;21) breakpoint, is one of the most frequent targets for chromosomal translocations in leukemia. Furthermore, polysomies and point mutations can also alter AML1 function. AML1, also called CBF alpha 2, PEBP alpha 2 or RUNX1, is thus implicated in a great number of acute leukemias via a variety of pathogenic mechanisms and seems to act either as an oncogene or a tumor suppressor gene. Characterization of AML1 knockout mice has shown that AML1 is necessary for normal development of all hematopoietic lineages and alterations in the overal functional level of AML1 can have a profound effect on hematopoiesis. Numerous studies have shown that AML1 plays a vital role in the regulation of expression of many genes involved in hematopoietic cell development, and the impairment of AML1 function disregulates the pathways leading to cellular proliferation and differentiation. However, heterozygous AML1 mutations alone may not be sufficient for the development of leukemia. A cumulative process of mutagenesis involving additional genetic events in functionally related molecules, may be necessary for the development of leukemia and may determine the leukemic phenotype. We review the known AML1 target genes, AML1 interacting proteins, AML1 gene alterations and their effects on AML1 function, and mutations in AML1-related genes associated with leukemia. We discuss the interconnections between all these genes in cell signaling pathways and their importance for future therapeutic developments.
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PMID:AML1 interconnected pathways of leukemogenesis. 1264 14

A common chromosomal translocation in acute myeloid leukemia (AML) involves the AML1 (acute myeloid leukemia 1, also called RUNX1, core binding factor protein (CBF alpha), and PEBP2 alpha B) gene on chromosome 21 and the ETO (eight-twenty one, also called MTG8) gene on chromosome 8. This translocation generates an AML1-ETO fusion protein. t(8;21) is associated with 12% of de novo AML cases and up to 40% in the AML subtype M2 of the French-American-British classification. Furthermore, it is also reported in a small portion of M0, M1, and M4 AML samples. Despite numerous studies on the function of AML1-ETO, the precise mechanism by which the fusion protein is involved in leukemia development is still not fully understood. In this review, we will discuss structural aspects of the fusion protein and the accumulated knowledge from in vitro analyses on AML1-ETO functions, and outline putative mechanisms of its leukemogenic potential.
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PMID:The 8;21 translocation in leukemogenesis. 1515 81

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