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 t(10;11)(p13;q14-21) is a non-random translocation described in acute lymphoblastic and myeloid leukaemias. It results in the fusion of the gene CALM, which encodes a clathrin assembly protein, on 11q14 to the gene AF10, a putative transcription factor on 10p13. Here we describe for the first time, the occurrence of a CALM-AF10 fusion in a case of acute megakaryoblastic leukaemia. Fluorescence in situ hybridisation and reverse transcriptase polymerase chain reaction were used to confirm the presence of a CALM-AF10 fusion. A novel splice variant of CALM missing nt 1927-2091 was also detected. Though CALM is a cytoplasmic protein, the chimaeric fusion product is able to localise to both the nucleus and cytoplasm. Analysis of the fusion variants suggests, however, that the critical fusion product is likely to be cytoplasmic and contain the interactive leucine zipper of AF10.
Leukemia 2001 Jun
PMID:Identification and molecular characterisation of a CALM-AF10 fusion in acute megakaryoblastic leukaemia. 1141 76

The mixed lineage leukemia, MLL, gene is frequently rearranged in patients with secondary leukemia following treatment with DNA topoisomerase II inhibitors. By FISH and Southern blot analyses we identified a rearrangement in the MLL gene due to a novel t(3;11)(q28;q23) chromosomal translocation in a patient who developed AML-M5 3 years after treatment for a follicular lymphoma. Through inverse PCR, the LPP (lipoma preferred partner) gene on 3q28 was identified as the MLL fusion partner. LPP contains substantial identity to the focal adhesion protein, zyxin, and is frequently fused to HMGIC in lipomas. The breakpoint occurred in intron 8 of MLL and LPP. Two in-frame MLL-LPP transcripts, which fuse MLL exon 8 to LPP exon 9, were detected by RT-PCR, although the smaller of these contained a deletion of 120 bp from the MLL sequence. The predicted MLL-LPP fusion protein includes the A/T hook motifs and methyltransferase domain of MLL joined to the two last LIM domains of LPP. A reciprocal LPP-MLL transcript, predicted to include the proline-rich and leucine zipper motifs, and the first LIM domain of LPP were also detected by RT-PCR. In summary, LPP is a newly identified MLL fusion partner in secondary leukemia resulting from topoisomerase inhibitors. The MLL-LPP and LPP-MLL predicted proteins contain many of the features present in other MLL rearrangements.
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PMID:Human LPP gene is fused to MLL in a secondary acute leukemia with a t(3;11) (q28;q23). 1143 29

cAMP response element binding protein-2 (CREB-2) is a basic leucine zipper (bZIP) factor that was originally described as a repressor of CRE-dependent transcription but that can also act as a transcriptional activator. Moreover, CREB-2 is able to function in association with the viral Tax protein as an activator of the human T-cell leukemia virus type I (HTLV-I) promoter. Here we show that CREB-2 is able to interact with C/EBP-homologous protein (CHOP), a bZIP transcription factor known to inhibit CAAT/enhancer-dependent transcription. Cotransfection of CHOP with CREB-2 results in decreased activation driven by the cellular CRE motif or the HTLV-I proximal Tax-responsive element, confirming that CREB-2 and CHOP can interact with each other in vivo.
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PMID:The cAMP response element binding protein-2 (CREB-2) can interact with the C/EBP-homologous protein (CHOP). 1147 48

TNF-related apoptosis-inducing ligand (TRAIL) shares significant homology with CD95 (Fas) ligand and has the ability to induce apoptosis in sensitive cells through a caspase-mediated pathway. We have evaluated the activity of purified human recombinant soluble TRAIL (S-TRAIL, comprising residues 114-281; Biomol, Plymouth Meeting, PA, USA) and a leucine zipper construct of TRAIL (LZ-TRAIL; Immunex, Seattle WA, USA) against myeloma cell lines NCI H929, U266, RPMI 8226, the FasL-sensitive Jurkat T cell ALL line, the lymphoblastoid cell line MC/CAR and primary tumour cells from 16 myeloma patients. Furthermore, we examined the relationship between TRAIL-induced apoptosis and TRAIL receptor expression utilising RT-PCR and flow cytometry. Two of three myeloma cell lines and Jurkat were TRAIL sensitive whereas MC/CAR was relatively resistant. Five of 16 (31%) primary tumours demonstrated > or =20% reduction in myeloma cells following TRAIL incubation (20-59%). This did not correlate with prior therapy. Four cell lines (two sensitive) and five primary tumours (two sensitive) demonstrated mRNA expression of the intra-cellular death domain containing TRAIL-R1. Variable expression of the two decoy (TRAIL-R3 and R4) and soluble (osteoprotegerin) receptors was seen and this did not correlate with TRAIL resistance. We conclude that myeloma cell expression of death effector receptors for TRAIL is insufficient to confer sensitivity to TRAIL-induced apoptosis but that in a significant minority of patients, irrespective of prior therapy, tumour cells are sensitive to TRAIL. The further investigation of TRAIL as an adjunct to presently available therapies for myeloma is justified.
Leukemia 2001 Oct
PMID:TRAIL-induced eradication of primary tumour cells from multiple myeloma patient bone marrows is not related to TRAIL receptor expression or prior chemotherapy. 1158 25

ST7 is a tumor suppressor gene, which is clustered with WNT2 gene in human chromosome 7q31 region. WNT2 gene is homologous to WNT2B gene. WNT2B gene encodes two isoforms due to alternative splicing of alternative promoter type. WNT2 and WNT2B isoform 2 (WNT2B2) are positive regulators of the WNT - beta-catenin - TCF signaling pathway. Here, a novel ST7-related gene ST7R (ST7-like, ST7L) was identified by using bioinformatics, and ST7R cDNAs were isolated by using cDNA-PCR. ST7R gene encoded 575-amino-acid polypeptide with leucine zipper domain and 3 tyrosine-phosphorylation sites. Human ST7R was homologous to human ST7 (72.1% total-amino-acid identity) and Drosophila CG3634 (56.8% total-amino-acid identity). Leucine zipper domain was unique to ST7R. Tyr 268 and Tyr 441 of ST7R were conserved in ST7 and CG3634. ST7R-homologous domains (S7H1, S7H2, and S7H3) were conserved among ST7R, ST7, and CG3634. ST7R gene consisted of at least 15 exons, and four ST7R isoforms were transcribed due to alternative splicing. ST7R and WNT2B genes, located in human chromosome 1p13 region, were clustered in tail-to-tail manner with an interval of less than 5.0-kb. ST7R-WNT2B and ST7-WNT2 gene clusters might be generated due to duplication of an ancestral gene cluster. Because allelic loss or rearrangements of human chromosome 1p13 region are reported in breast cancer, germ cell tumors, squamous cell carcinoma of head and neck, non-small cell lung cancer, gastrointestinal stromal/smooth muscle tumors (GIST), meningioma, melanoma, acute megakaryoblastic leukemia (M7), and Kaposi's sarcoma, ST7R might be a novel tumor suppressor gene on human chromosome 1p13.
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PMID:Molecular cloning and characterization of ST7R (ST7-like, ST7L) on human chromosome 1p13, a novel gene homologous to tumor suppressor gene ST7 on human chromosome 7q31. 1201 6

The RNA genome of the human T-cell leukemia virus type 1 (HTLV-1) codes for proteins involved in infectivity, replication, and transformation. We report in this study the characterization of a novel viral protein encoded by the complementary strand of the HTLV-1 RNA genome. This protein, designated HBZ (for HTLV-1 bZIP factor), contains a N-terminal transcriptional activation domain and a leucine zipper motif in its C terminus. We show here that HBZ is able to interact with the bZIP transcription factor CREB-2 (also called ATF-4), known to activate the HTLV-1 transcription by recruiting the viral trans-activator Tax on the Tax-responsive elements (TxREs). However, we demonstrate that the HBZ/CREB-2 heterodimers are no more able to bind to the TxRE and cyclic AMP response element sites. Taking these findings together, the functional inactivation of CREB-2 by HBZ is suggested to contribute to regulation of the HTLV-1 transcription. Moreover, the characterization of a minus-strand gene protein encoded by HTLV-1 has never been reported until now.
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PMID:The complementary strand of the human T-cell leukemia virus type 1 RNA genome encodes a bZIP transcription factor that down-regulates viral transcription. 1243 6

A chimeric soluble CD23, consisting of the extracellular domain of mouse CD23 and a modified leucine zipper (lz-CD23), has been shown to inhibit IgE binding to the FcepsilonRI. A similar human CD23 construct was also shown to inhibit binding of human IgE to human FcepsilonRI. In both systems, the inhibition was found to be temperature dependent; a 10-fold molar excess of lz-CD23 gave 90-98% inhibition at 4 degrees C, dropping to 20-30% inhibition at 37 degrees C. Surface plasmon resonance analysis of lz-CD23 binding to an IgE-coated sensor chip suggested that the effective concentration of lz-CD23 was lower at the higher temperatures. Analysis of (125)I-IgE binding to CD23(+)-Chinese hamster ovary cells also indicated that increased temperature resulted in a lower percentage of IgE capable of interacting with CD23. In contrast, IgE interacts more effectively with FcepsilonRI(+)-rat basophilic leukemia cells at 37 degrees C compared with 4 degrees C. The results support the concept that the open and closed IgE structures found by crystallography interact differently with the two IgE receptors and suggest that temperature influences the relative percentage of IgE in the respective structural forms. Changes in CD23 oligomerization also plays a role in the decreased binding seen at physiological temperatures.
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PMID:Temperature effect on IgE binding to CD23 versus Fc epsilon RI. 1257 49

To elucidate mechanisms leading to acute myelogenous leukemia (AML), to find sensitive markers and novel targets for drug therapy, and to allow choice of suitable chemotherapy for each affected individual, we previously compared expression of mRNA from mononuclear cells of AML patients with that of normal controls using a cDNA microarray. Data from that study identified many genes that were commonly up- or down-regulated in AML cells. Of these, we report here the identification of a novel gene whose expression was increased in 27 (93%) of the 29 AML cases whose PBMC preparations include >70% leukemia cells. The gene product, localized in nuclei, showed several characteristics of transcription factors: five zinc-finger domains, a leucine zipper, and several nuclear localization signals. Its 92.5% identity in amino-acid sequence to the murine penta zinc finger protein (mPZf; gene symbol Zfp91), led us to term it ZFP91. Anti-sense oligonucleotides inhibited expression of ZFP91, suppressed cell growth, and induced apoptosis. Our results suggest that ZFP91 is likely to play an important role in cell proliferation and/or anti-apoptosis, and may serve as a molecular marker for AML.
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PMID:Identification of a novel human gene, ZFP91, involved in acute myelogenous leukemia. 1273 86

The human T-cell leukemia virus type I (HTLV-I)-encoded Tax protein activates transcription from the viral promoter via association with the cellular basic leucine zipper factor cAMP-response element-binding protein-2. Tax is also able to induce cellular transformation of T lymphocytes probably by modulating transcriptional activity of cellular factors, including nuclear factor-kappaB, E2F, activator protein-1 (AP-1), and p53. Recently, we characterized in HTLV-I-infected cells the presence of a novel viral protein, HBZ, encoded by the complementary strand of the HTLV-I RNA genome (Gaudray, G., Gachon, F., Basbous, J., Biard-Piechaczyk, M., Devaux, C., and Mesnard, J.-M. (2002) J. Virol. 76, 12813-12822). HBZ is a nuclear basic leucine zipper protein that down-regulates Tax-dependent viral transcription by inhibiting the binding of cAMP-response element-binding protein-2 to the HTLV-I promoter. In searching for other cellular targets of HBZ, we identified two members of the Jun family, JunB and c-Jun. Co-immunoprecipitation and cellular colocalization confirmed that HBZ interacts in vivo with JunB and c-Jun. When transiently introduced into CEM cells with a reporter gene containing the AP-1 site from the collagenase promoter, HBZ suppressed transactivation by c-Jun. On the other hand, the combination of HBZ with Jun-B had higher transcriptional activity than JunB alone. Consistent with the structure of its basic domain, we demonstrate that HBZ decreases the DNA-binding activity of c-Jun and JunB. Last, we show that c-Jun is no longer capable of activating the basal expression of the HTLV-I promoter in the presence of HBZ in vivo. Our results support the hypothesis that HBZ could be a negative modulator of the Tax effect by controlling Tax expression at the transcriptional level and by attenuating activation of AP-1 by Tax.
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PMID:The HBZ factor of human T-cell leukemia virus type I dimerizes with transcription factors JunB and c-Jun and modulates their transcriptional activity. 1293 77

The SAP domain transcription factor myocardin plays a critical role in the transcriptional program regulating smooth muscle cell differentiation. In this report, we describe the capacity of myocardin to physically associate with megakaryoblastic leukemia factor-1 (MKL1) and characterize the function of MKL1 in smooth muscle cells (SMCs). The MKL1 gene is expressed in most human tissues and myocardin and MKL are co-expressed in SMCs. MKL1 and myocardin physically associate via conserved leucine zipper domains. Overexpression of MKL1 transactivates serum response factor (SRF)-dependent SMC-restricted transcriptional regulatory elements including the SM22alpha promoter, smooth muscle myosin heavy chain promoter/enhancer, and SM-alpha-actin promoter/enhancer in non-SMCs. Moreover, forced expression of MKL1 and SRF in undifferentiated SRF(-/-) embryonic stem cells activates multiple endogenous SMC-restricted genes at levels equivalent to, or exceeding, myocardin. Forced expression of a dominant-negative MKL1 mutant reduces myocardin-induced activation of the SMC-specific SM22alpha promoter. In NIH3T3 fibroblasts MKL1 localizes to the cytoplasm and translocates to the nucleus in response to serum stimulation, actin treadmilling, and RhoA signaling. In contrast, in SMCs MKL1 is observed exclusively in the nucleus regardless of serum conditions or RhoA signaling. However, when actin polymerization is disrupted MKL1 translocates from the nucleus to the cytoplasm in SMCs. Together, these data were consistent with a model wherein MKL1 transduces signals from the cytoskeleton to the nucleus in SMCs and regulates SRF-dependent SMC differentiation autonomously or in concert with myocardin.
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PMID:Megakaryoblastic leukemia factor-1 transduces cytoskeletal signals and induces smooth muscle cell differentiation from undifferentiated embryonic stem cells. 1497 Jan 99

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