UMLS:C0023418 - FACTA Search

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Query: UMLS:C0023418 (leukemia)
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The t(4;11)(q21;q23) characterizes a distinct clinical entity of childhood and adult acute lymphoblastic leukemia (ALL) with a pre-pre-B-phenotype, monocytoid features, coexpression of CD15 and/or CDw65 and a dismal prognosis. The molecular correlate of the t(4;11) has been identified as a fusion transcript of HRX, a gene on 11q23 with homology to drosophila trithorax gene, and FEL, a serine-proline-rich gene on 4q21 of unknown function. The aim of the current study was to establish a reverse transcription-polymerase chain reaction (RT-PCR) approach for the rapid and sensitive detection of the HRX-FEL fusion transcript associated with the t(4;11). For this purpose, two groups of patients were studied: group A comprised cases with cytogenetically proven t(4;11) including three infant and four adult pre-pre-B-ALL, as well as the two cell lines RS4;11 and MV4;11. Group B consisted of ten adult pre-pre-B-ALL with the identical phenotype, but without cytogenetic confirmation of t(4;11). Using primers complementary to HRX and FEL cDNA sequences 300 to 500 bp 5' and 3' of published breakpoints, respectively, specific amplification products were obtained in all nine cases of group A and in nine of the ten cases of group B. Three different types of fusion transcripts were identified by sequence analysis with HRX breakpoints at nucleotides 4086 and 4218 and FEL breakpoints at nucleotides 1413, 1416, and 1458. These data indicate that RT-PCR allows the detection of HRX-FEL fusion transcripts in the vast majority of cytogenetically proven and immunophenotypically suspected t(4;11) ALL. Hence, this technique may allow identification of a further subset of high risk ALL and may also be useful for the monitoring of minimal residual disease in t(4;11) ALL.
Leukemia 1994 Apr
PMID:Detection of HRX-FEL fusion transcripts in pre-pre-B-ALL with and without cytogenetic demonstration of t(4;11). 790 8

The primate type C retrovirus gibbon ape leukemia virus (GaLV) has been shown to use a widely expressed, multiple membrane-spanning protein of unknown function as its cell surface receptor on human cells (GLVR1) (Johann, S. V., Gibbons, J. J., and O'Hara, B. (1992) J. Virol. 66, 1635-1640; O'Hara, B., Johann, S. V., Klinger, H. P., Blair, D. G., Rubinson, H., Dunni, K.J., Sass, P., Vitek, S. M., and Robins, T. (1990) Cell Growth Diff. 1, 119-127). Here we present evidence that the receptor for GaLV (GLVR1) functions as a sodium-dependent transporter of inorganic phosphate. GLVR1 is shown to have approximately 3-4-fold higher affinity for phosphate than other mammalian phosphate transporters described to date. Productive infection of GLVR1-expressing cells by GaLV, but not other retroviruses, results in the complete blockade of GLVR1-specific uptake of inorganic phosphate. Since productive infection of cells with GaLV is generally not cytotoxic, it is likely that more than one phosphate transporter exists on the cell surface. Our data suggest that GLVR1 represents a sodium-dependent phosphate transporter that differs from other mammalian phosphate transporters in structure, affinity for phosphate, and function.
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PMID:The cellular receptor for gibbon ape leukemia virus is a novel high affinity sodium-dependent phosphate transporter. 792 40

The lymphoproliferative disease retrovirus (LPDV) induces an acute, horizontally transmitted disease of turkeys that is often fatal. Although LPDV cannot be grown in cultured cells, it was possible to isolate molecular clones of biologically active integrated proviral genomes from spleens of infected turkeys. Based upon molecular hybridization and nucleotide sequence comparisons of its pol gene, LPDV was shown to represent a distinct group of avian retroviruses most closely related to avian sarcoma-leukemia viruses. Here we report the complete nucleotide sequence of the LPDV genome as well as amino acid sequence analysis of its gag gene products. The genetic organization of LPDV is characteristic of members of the oncovirus subfamily. Further sequence comparisons of the gag gene confirmed that LPDV is most closely related to Rous sarcoma virus (RSV). However, the gag, pro, and pol open reading frames (ORFs) were in different translational phases so that the expression of their mature gene products would require the double frame-shifting mechanism utilized by simian retroviruses, mouse mammary tumor virus, and human T-cell leukemia virus. In contrast, the RSV proteinase is synthesized as part of the gag precursor. The LPDV gag gene differs from that of RSV as well as from all other retroviruses in that it encodes a unique 31,000-Da (p31) protein, located between the MA and the CA coding sequences. FOur short ORFs of unknown function were present, Whether the putative products of these ORFs account for the acute nature of LPDV-induced disease remains to be determined.
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PMID:Genome organization of a biologically active molecular clone of the lymphoproliferative disease virus of turkeys. 794 37

The characteristic balanced 15;17 translocation, t(15;17), of acute promyelocytic leukemia (APL) fuses the retinoic acid receptor alpha (RAR alpha) gene on chromosome 17 to PML, a recently described gene of unknown function, on chromosome 15. It is this fusion gene and consequent fusion protein that is thought to be responsible for both the block in normal myelocyte differentiation as well as the dramatic in vitro and in vivo response to the differentiating effects of all-trans retinoic acid (RA). The t(15;17) also provides a genetic marker for the presence of leukemic cells. PML/RAR alpha fusion mRNA's can be detected by a reverse transcription polymerase chain reaction (RT-PCR) assay. Using this assay, at least three distinct patterns, differing in the 3' region of the PML breakpoint, can be identified. The detection of abnormal mRNA's by the RT-PCR assay has proven to be an important aid in the diagnosis of APL as well as the best predictor of an initial clinical response to RA. The results of an ongoing, longitudinal evaluation of patients with APL show that the RT-PCR assay may also be a useful indicator of minimal residual disease (MRD). Negative RT-PCR assays following completion of all therapy are associated with prolonged disease free survival, whereas persistence or return of a positive test is highly correlated with subsequent relapse. Further studies will determine whether patients who test positive may benefit from the introduction of additional antileukemic therapy.
Leukemia 1994 Apr
PMID:Molecular diagnosis and monitoring of acute promyelocytic leukemia treated with retinoic acid. 815 76

Acute promyelocytic leukaemia is characterized by an expansion of haematopoietic precursors arrested at the promyelocytic stage (1). The differentiation block can be reversed by retinoic acid, which induces blast differentiation both in vitro (2) and in vivo (3-4). Acute promyelocytic leukaemia is also characterized by a 15;17 chromosome translocation (5) with breakpoints within the retinoic acid alpha receptor (RAR alpha) gene on 17 and within the PML gene, that encodes a putative transcription factor of unknown function (6-7), on 15 (8-10). As a consequence of the translocation a PML/RAR alpha gene is formed. It is transcriptionally active and encodes a PML/RAR alpha fusion protein detectable in all APL cases (11-14). We expressed the PML/RAR alpha protein in U937 myeloid precursor cell line and show that they: 1) lose the capacity to differentiate under the action of different stimuli (vitamin D3, transforming growth factor beta 1); ii) acquire enhanced sensitivity to retinoic acid; iii) exhibit a higher growth rate that is due to a reduction in apoptotic cell death. These results provide the first evidence of biological activity of PML/RAR alpha and recapitulate critical features of the promyelocytic leukemia phenotype.
Leukemia 1994 Apr
PMID:Effect of the acute promyelocytic leukemia PML/RAR alpha protein on differentiation and survival of myeloid precursors. 815 8

The human immunodeficiency virus type 1 (HIV-1) vif gene encodes a 23-kDa protein of unknown function, also produced by most other known lentiviruses. Vif was found to be essential for the spread of HIV-1 in peripheral blood lymphocytes and in primary macrophages, as well as in some but not all established T-cell lines. Vif was required at the stage of viral particle formation, for cell-to-cell as well as for cell-free transmission of HIV-1. Accordingly, vif-defective viruses could be complemented by the expression of vif in the producer but not in the target cell. vif-defective virions contained wild-type amounts of Gag and Env proteins, reverse transcriptase, integrase, genomic RNA, and partial reverse transcripts. Most importantly, they could enter cells normally, and the vif defect could not be rescued through the use of HIV(MLV [murine leukemia virus]) pseudotypes. Instead, vif-mutant viruses were severely impaired in their ability to complete the synthesis of proviral DNA, once internalized in the target cell. These results suggest that Vif plays a role which is novel for a retroviral protein, in allowing the processing and/or the transport of the internalized HIV core.
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PMID:Vif is crucial for human immunodeficiency virus type 1 proviral DNA synthesis in infected cells. 833 34

cAMP induced rapid apoptosis (> 90% cell death in 6 h) of non-growth-arrested rat leukemia IPC-81 cells. A cell clone selected for cAMP resistance had a normally functioning apoptotic machinery whose triggering required about 30-fold higher cellular cAMP than in the parent cells. The cAMP subresponsiveness was due to a heterozygous point mutation (Ala336-->Asp) in the RI subunit of cAMP-dependent protein kinase I. In fact, apoptosis correlated with intracellular cAMP binding to the subresponsive RI. The mutated alanine is invariantly present in cyclic nucleotide kinases, but of unknown function. The mutation decreased the cAMP affinity to site B by increasing the cAMP dissociation rate 500x. The ability of site B to discriminate adenine-modified cAMP analogues was affected, suggesting that Ala336 faced the adenine moiety of cAMP. That the heterozygously expressed RID336 was a dominant suppressor of apoptosis was explained by a higher expression of R than C subunits in the mutant cells by preferential expression of the mutant form of RI, and by the ability of mutant RI to exert dominant negative control of activation of wild type cAMP kinase at moderate cAMP levels. Apoptosis was induced at a similar cAMP level in cells treated with cholera toxin or other cAMP elevating agents, indicating that cAMP kinase was essential for toxin action.
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PMID:Antiapoptotic effect of heterozygously expressed mutant RI (Ala336-->Asp) subunit of cAMP kinase I in a rat leukemia cell line. 838 40

The most common chromosome abnormality among infants with acute lymphoblastic leukemia is a t(4;11)(q2l;q23) and patients with this 4;11 translocation have a very poor prognosis. This unique genetic rearrangement fuses the MLL/ALL-1/HRX-Htrx gene at 11q23 with the AF4/FEL gene at 4q21. The resulting chimeric mRNAs presumably encode chimeric proteins which contribute to the leukemogenic state. The AF4 gene remains poorly understood with an unknown function. In this report, we describe the cDNA sequence information from human placental tissue where AF4 mRNA is highly expressed. We identified six intron-exon boundaries in the AF4 genomic structure and discussed more than 30 AF4 cDNA sequence variations reported in the literature. In addition, we identified three overlapping genomic sequences in GenBank entitled the "interleukin growth hormone cluster on chromosome 5q31," which, when aligned and translated, had three regions that suggested homology to the predicted AF4 protein sequence (32% amino acid sequence identity over 314 amino acids, 43% over 63 amino acids, and 50% over 40 amino acids). Of interest, this same chromosome 5q31 region has also been implicated in MLL gene rearrangements in human leukemia.
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PMID:AF4/FEL, a gene involved in infant leukemia: sequence variations, gene structure, and possible homology with a genomic sequence on 5q31. 876 69

The disruption of transcriptional regulatory circuits through the elimination of negative regulatory factors (tumor suppressors), the activation of positive acting factors (oncogenes), or when chimeric proteins result from chromosomal translocations, is likely a key event in multistep tumorigenesis. Here, using the transcription factors E2F and AML-1 as model systems, we discuss the disruption of coordinate transcriptional regulation in oncogenesis. E2F oncogenic signals are released when the pRb tumor suppressor is inactivated, and E2F activation may necessitate the coordinate inactivation of a second tumor suppressor, p53. AML-1 is the target of the (8;21) translocation, found in approximately 15% of acute myeloid leukemia (AML) cases, and the t(12;21), found in up to 30% of childhood B-cell acute lymphoblastic leukemias. The t(8;21) creates a fusion protein between AML-1 and a gene of unknown function, mtg8 (ETO), whereas the t(12;21) fuses the TEL (translocation-ets-leukemia) transcription factor to the N-terminus of AML-1. The inv(16), which is the most frequent anomaly found in AML, also targets AML-1, by fusing the gene that encodes AML-1's heterodimeric partner CBF beta to the smooth muscle myosin heavy chain gene MYHll. Thus, E2F and AML-1 provide excellent models for the disruption of transcriptional regulation in cancer.
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PMID:Indirect and direct disruption of transcriptional regulation in cancer: E2F and AML-1. 883 31

The genes AF10 and AF17 have been identified as the basis of the t(10;11) and t(11;17) translocations, events that result in their fusion to the MLL/HRX gene in acute myeloid leukaemias. AF10 and AF17 bear significant homology to each other within their putative zinc finger and leucine zipper domains, although they are diverged outside these regions. The BR140 gene encodes a 140 kDa protein of unknown function that contains a putative zinc finger domain, a leucine zipper region, and, in addition, a bromo domain. The zinc finger and leucine zipper domains of BR140 have significant homology to those of AF10 and AF17, suggesting that it belongs to this newly described gene family and, therefore, could be a target for chromosome translocation. To assess the potential involvement of BR140 in chromosome translocations in leukaemia, the chromosomal location of the BR140 gene has been determined by using several independent methods. A combination of Southern analysis, polymerase chain reactions (PCR) on monochromosomal cell hybrids, and fluorescence in situ hybridisation (FISH) has been used to show that the BR140 gene maps to chromosome band 3p25.
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PMID:Gene BR140, which is related to AF10 and AF17, maps to chromosome band 3p25. 894 9

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