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 human T-cell lymphotropic virus type 1 (HTLV-1), an etiologic agent for adult T-cell leukemia, is strongly associated with tropical spastic paraparesis, a chronic neurological disease. The HTLV-1 genome encodes a protein, tax1, an autoregulator of enhanced viral RNA transcription, that also transactivates/represses certain cellular gene promoters. Enkephalins are opioid peptides that function as neurotransmitters and neuroimmunomodulators. We earlier reported that the proenkephalin gene is transactivated by tax1 protein in glial cells. The nucleotide sequence upstream of -190 base pairs in the proenkephalin gene promoter is necessary for maximal transactivation by tax1 while the sequence downstream of -190 bp confers modest activation by tax1. We investigated the cellular transcription factors in tax1 expressing glial cells that associate with the proenkephalin promoter and herein demonstrate the enhanced interaction and involvement of c-Fos/c-Jun proteins in the complexes formed at the AP-1 site. The HTLV-1 tax1 expressing stable glial cell lines produced functional tax1 protein that increased the expression of endogenous proenkephalin gene. The comparative electrophoretic mobility shift and 'supershift' analysis using specific antibodies indicated the enhanced presence of c-Fos and c-Jun proteins in the DNA: protein complex formed at the AP-1 site. The c-Fos protein expression significantly increased in the tax1 expressing glial cells. The tax1 induced c-Fos protein levels and the concurrently increased association of c-Fos/c-Jun transcription factors at the AP-1 site imply a strong functional significance in the activation of proenkephalin gene expression in tax1 expressing glial cells.
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PMID:Transactivation of proenkephalin gene by HTLV-1 tax1 protein in glial cells: involvement of Fos/Jun complex at an AP-1 element in the proenkephalin gene promoter. 914 18

Granulocyte-macrophage colony-stimulating factor (GM-CSF) is one of the many cytokines produced following T-cell activation. It is also produced in a variety of other cell types, in particular following activation by inflammatory mediators. Changes in the rate of transcription are important in the control of GM-CSF expression in T cells and in fibroblasts and endothelial cells. The GM-CSF gene contains two distinct transcriptional control regions. These are the proximal promoter consisting of the first 120 bp from the transcription start site and an enhancer located approximately 3 kb upstream from the proximal promoter. Distinct regions of the proximal promoter respond to a wide array of signals such as phorbol myristate acetate (PMA) and Ca2+ ionophore or phytohemaglutinin (PHA), CD28 activation, human T leukemia virus (HTLV)-1 tax, TNF, and interleukin 1 (IL-1). The transcription factors that mediate these responses have mainly been defined, with the major inducible proteins being the NF-kappa B/rel and AP-I families of transcription factors. In contrast to the promoter, the enhancer responds only to PMA and Ca2+ ionophore signals and binds NFAT/AP-1 complexes that appear to mediate its function.
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PMID:Signals for activation of the GM-CSF promoter and enhancer in T cells. 920 85

Characterization of the cellular transcription factors interacting with the human T cell lymphotropic virus type I (HTLV-I) long terminal repeat (LTR) is essential to dissecting the mechanisms involved in viral transcription that may be pertinent to the oncogenic and neuropathogenic processes associated with HTLV-I infection in both the immune and nervous systems. Electrophoretic mobility shift (EMS) analyses utilizing oligonucleotides homologous to each of the 21 bp repeat elements reacted with nuclear extracts derived from cell lines of lymphocytic, monocytic, neuronal, and glial cell origin have demonstrated differential binding of cellular factors to the three 21 bp repeats (1-4). ATF/CREB and Sp family members interacted with the 21 bp repeats to form DNA-protein complexes common to all cell types examined. However, a unique DNA-protein complex was detected when the promoter central 21 bp repeat was reacted with nuclear extracts derived from either the U-373 MG glioblastoma cell line or the THP-1 mature monocytic cell line. Based on nucleotide sequence requirements and immunoreactivity, we demonstrate that this DNA-protein complex is comprised of the AP-1 components, Fos and Jun.
Leukemia 1997 Apr
PMID:AP-1 derived from mature monocytes and astrocytes preferentially interacts with the HTLV-I promoter central 21 bp repeat. 920 84

Using a yeast interaction screen with a DNA-bound Ets-1 protein we have identified MafB as a direct interaction partner. This distant AP-1 relative, which is specifically expressed in myelomonocytic cells, binds to the DNA binding domain of Ets-1 via its basic region/leucine zipper domain. MafB represses Ets-1 transactivation of synthetic promoters containing Ets binding sites in yeast as well as avian cells. Both Ets-1 and Maf family proteins have been implicated in erythroid specific gene expression. Here we show that MafB inhibits Ets-1-mediated transactivation of the transferrin receptor, which is essential for heme synthesis and erythroid differentiation. Consequently, overexpression of MafB in an erythroblast cell line down-regulates the endogenous transferrin receptor gene and inhibits the cells' potential to differentiate into erythrocytes, without affecting cellular proliferation.
Leukemia 1997 Apr
PMID:MafB represses erythroid genes and differentiation through direct interaction with c-Ets-1. 920 34

Accumulated evidence demonstrates that adult T-cell leukemia (ATL) is frequently associated with eosinophilia, and human T-lymphotropic virus type 1 (HTLV-1)-infected cells frequently express interleukin-5 (IL-5). However, the molecular mechanism of constitutive IL-5 expression in HTLV-1-infected cells remains unclear. To clarify the mechanism of aberrant IL-5 expression in HTLV-1-infected cells, we investigated the response of the human IL-5 promoter to the HTLV-1-encoded protein Tax. Cotransfection experiments using Jurkat cells revealed that Tax is incapable of activating the IL-5 promoter by itself but that it synergistically transactivates the promoter with GATA-binding protein (GATA-4) and 12-O-tetradecanoylphorbol-13-acetate (TPA) stimulation. By introducing a series of mutations within the IL-5 promoter, we found that conserved lymphokine element 0 (CLE0) is responsible for mediating the signal induced by Tax-TPA. A deletion construct of the promoter indicated that the -75 GATA element and CLE0 are sufficient to mediate synergistic activation of the IL-5 promoter. Electrophoretic mobility shift assays using Jurkat cell nuclear extracts demonstrated that TPA induces a transcription factor to bind CLE0, and an experiment using JPX-9 cell nuclear extracts showed that Tax enhances this binding activity. An antibody supershift experiment revealed that this band consists of c-Jun and JunD. However, among the Jun family members, only c-Jun is able to cooperate with Tax and GATA-4 to activate the IL-5 promoter. We have determined the minimum factors required for IL-5 gene activation by reconstituting the IL-5 promoter activity in F9 cells. This is the first report to demonstrate the functional involvement of Tax protein in IL-5 gene regulation and to suggest the functional triple synergism among Tax, GATA-4, and AP-1, which disrupts regulated control of the gene and leads to constitutive expression of the IL-5 gene.
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PMID:Triple synergism of human T-lymphotropic virus type 1-encoded tax, GATA-binding protein, and AP-1 is required for constitutive expression of the interleukin-5 gene in adult T-cell leukemia cells. 923 84

The purpose of this study was to characterize mitoxantrone-induced cytotoxicity in KG1a and TF-1, two P-glycoprotein expressing AML cell lines which display early differentiation phenotypes, compared to more mature HL-60 and U937 cells. KG1a and TF-1 cells were found to be 30-40-fold more resistant to mitoxantrone than HL-60 and U937 cells. Uptake and efflux of mitoxantrone were similar for all cell lines. Moreover, a potent P-glycoprotein blocker (PSC833) had no impact on either accumulation or efflux. No differences were found in the appearance and removal of mitoxantrone-induced DNA-protein complexes. These results suggest that resistance of KG1a and TF-1 cells is not related to a decreased interaction between mitoxantrone and topoisomerase II. Further studies showed that the mechanisms of cell death were different for sensitive and resistant cell lines. Thus, mitoxantrone induced rapid apoptotic cell death in sensitive cells as indicated by characteristic morphological changes and both high molecular weight and internucleosomal DNA fragmentation. In contrast, mitoxantrone induced a G2-M block in resistant cells followed by a progressive loss of viability with necrotic features. Neither oligonucleosomal nor large DNA fragments were detected in these cells during a post-treatment period of up to 96 h. Finally, drug-induced activation of the AP-1 transcription factor was higher in resistant cell lines than in sensitive ones whereas activation of NF-kappaB was comparable. Therefore, our study provides evidence that certain AML cells display natural resistance to mitoxantrone which is independent of drug transport and drug-target interactions but appears to be associated with the inability of the drug to induce apoptosis in these cells.
Leukemia 1997 Sep
PMID:Natural resistance of acute myeloid leukemia cell lines to mitoxantrone is associated with lack of apoptosis. 930 8

In a previous study, we demonstrated that bufalin caused apoptosis in human leukemia U937 cells by the anomalous activation of mitogen-activated protein kinase (MAPK) via a signaling pathway that included Ras, Raf-1 and MAPK kinase-1. We report here the effect of bufalin on c-Jun N-terminal protein kinase (JNK), a member of the MAPK family, and on the signaling pathway downstream of MAPKs in U937 cells. When U937 cells were treated with 10(-8) M bufalin, the activity of JNK1 was markedly elevated 3 h after the start of treatment and remained so for 9 h. This activation of JNK and the induction of apoptosis by bufalin were suppressed by expression of antisense mRNA for MAPK kinase-1. c-Jun was translocated from the cytoplasm to the nucleus after treatment of U937 cells with bufalin. The transcriptional activity of AP-1 was transiently enhanced by the treatment with bufalin and this activation was suppressed by the expression of antisense mRNA for MAPK kinase-1. Both curcumin (1,7-bis[4-hydroxy-3-methoxy-phenyl]-1,6-heptadiene-3,5-dione), an inhibitor of the biosynthesis of AP-1, and the expression of dominant negative c-Jun inhibited the activation of AP-1 and the induction of apoptosis by bufalin. Expression of a constitutively active mutant form of MAPK kinase-1 induced the activation of AP-1 and subsequent apoptosis in U937 cells. These results suggest that the activation of AP-1 via a MAPK cascade that includes JNK is required for the induction of apoptosis by bufalin in U937 cells.
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PMID:Activation of AP-1 is required for bufalin-induced apoptosis in human leukemia U937 cells. 948 42

The transactivator protein, Tax, from the human T-cell leukemia virus type I (HTLV-I) transactivates both viral and cellular genes. Previously, we had shown that interleukin 8 (IL-8) is constitutively expressed in HTLV-I-infected cells and in cells transiently expressing Tax. We show here that the IL-8 promoter is Tax responsive in Jurkat T cells. Furthermore, using several deletion and mutated plasmids of the 5'-flanking regulatory region of the IL-8 gene linked to the luciferase gene as a reporter and mutant tax gene expression vectors, we have established that both AP-1 at -126 to -120 and nuclear factor (NF)-kappaB-like cis-element at -80 to -71 are essential and sufficient for the induction of the IL-8 gene by HTLV-I Tax. In addition, overexpression of the dominant-negative mutants of NF-kappaB inhibitor molecules, IkappaBalpha and IkappaBbeta, abolished the Tax-induced activation of IL-8 gene. Gel mobility shift assays detected proteins specifically binding to the AP-1 and NF-kappaB-like sites in Tax-expressing T-cell lines infected with HTLV-I. Similarly, the nuclear translocation of proteins specifically bound to these two motifs was shown in JPX-9 cells, a subclone of Jurkat cells, carrying the Tax sequences under the control of an inducible promoter. Taken together, these results suggest that the cooperation of transcription factors NF-kappaB and AP-1 is essential for transactivation of IL-8 gene by HTLV-I Tax.
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PMID:Human T-cell leukemia virus type I Tax transactivates human interleukin 8 gene through acting concurrently on AP-1 and nuclear factor-kappaB-like sites. 973 13

Theileria parasitises bovine leukocytes and transforms them into proliferating, metastatic tumours, where the infection resembles a leukaemia-like disease. We have studied the signal transduction pathways leading to activation of the transcription factor AP-1 in different transformed leukocytes. Parasite infection leads to an up-regulation of all members of the Jun/Fos family of proteins and surprisingly, this occurs in the absence of any detectable ERK, or p38 MAP kinase activity. In the parasitised B-sarcoma TBL3, AP-1 induction occurs in the absence of any JNK activity. In contrast, in infected macrophage and B-cell lines, AP-1 transcriptional activity is strictly associated with the parasite-induced constitutive activation of JNK and subsequent c-Jun N-terminal phosphorylation. Thus, constant AP-1 transcriptional activity involves both an upregulation in the levels of Jun and Fos proteins and constitutive JNK activation.
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PMID:Upregulation of Jun and Fos family members and permanent JNK activity lead to constitutive AP-1 activation in Theileria-transformed leukocytes. 974 72

The visna virus Tat protein is required for efficient viral transcription from the visna virus long terminal repeat (LTR). AP-1 sites within the visna virus LTR, which can be bound by the cellular transcription factors Fos and Jun, are also necessary for Tat-mediated transcriptional activation. A potential mechanism by which the visna virus Tat protein could target the viral promoter is by protein-protein interactions with Fos and/or Jun bound to AP-1 sites in the visna virus LTR. Once targeted to the visna virus promoter, the Tat protein could then interact with basal transcription factors to activate transcription. To examine protein-protein interactions with cellular proteins at the visna virus promoter, we used an in vitro protein affinity chromatography assay and electrophoretic mobility shift assay, in addition to an in vivo two-hybrid assay, to show that the visna virus Tat protein specifically interacts with the cellular transcription factors Fos and Jun and the basal transcription factor TBP (TATA binding protein). The Tat domain responsible for interactions with Fos and Jun was localized to an alpha-helical domain within amino acids 34 to 69 of the protein. The TBP binding domain was localized to amino acids 1 to 38 of Tat, a region previously described by our laboratory as the visna virus Tat activation domain. The bZIP domains of Fos and Jun were found to be important for the interactions with Tat. Mutations within the basic domains of Fos and Jun abrogated binding to Tat in the in vitro assays. The visna virus Tat protein was also able to interact with covalently cross-linked Fos and Jun dimers. Thus, the visna virus Tat protein appears to target AP-1 sites in the viral promoter in a mechanism similar to the interaction of human T-cell leukemia virus type 1 Tax with the cellular transcription factor CREB, by binding the basic domains of an intact bZIP dimer. The association between Tat, Fos, and Jun would position Tat proximal to the viral TATA box, where the visna virus Tat activation domain could contact TBP to activate viral transcription.
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PMID:Targeting of the visna virus tat protein to AP-1 sites: interactions with the bZIP domains of fos and jun in vitro and in vivo. 984 4

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