Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0023418 (leukemia)
93,477 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The PHD/LAP (plant homology domain/leukemia associated protein) finger motif is characteristically defined by a histidine and seven cysteines that are spatially arranged in a C4HC3 consensus sequence. This unique zinc finger, found primarily in a wide variety of chromatin-associated proteins, is considered to mediate protein-protein interactions. We have isolated a novel human PHD-finger protein, HBXAP (for hepatitis B virus x associated protein). HBXAP has three alternatively spliced isoforms. We also identified the Drosophila melanogaster HBXAP ortholog, gene CG8677. Based on alignment of four different proteins, we found a novel conserved domain in HBXAP that we designated the HBXAP conserved domain (XCD). We show that HBXAP represses transcription when recruited to DNA via the DNA binding of GAL4. Furthermore, the PHD finger alone suffices to repress transcription, thus attributing a functional role to this domain. The gene HBXAP is localized to the long arm of human chromosome 11 between q13.4 and q14.1. This region is amplified and rearranged in many tumors, suggesting a role for HBXAP in tumorigenesis similar to that of other PHD-containing proteins.
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PMID:HBXAP, a novel PHD-finger protein, possesses transcription repression activity. 1194 84

The retinoblastoma protein-interacting zinc finger gene (RIZ) is a zinc-finger type DNA binding protein and is postulated as a member of the nuclear protein-methyltransferase superfamily. RIZ gene encodes for two proteins, RIZ1 and RIZ2. While RIZ1 contains the N-terminal PR (PRDI-BF1 and RIZ homologous)-domain, RIZ2 lacks it. RIZ1 is now considered as a tumor suppressor. We analyzed nucleotide alteration of RIZ gene in human leukemia. The results revealed a single nucleotide polymorphism (SNP), T1704 to A, near the conserved Rb-binding domain, leading to an amino acid change, Asp283 to Glu. Interestingly, 17 of 21 leukemia cell lines are homozygous for the T1704 allele whereas only 2 of 20 normal subjects are homozygous for the allele. In addition, one base pair deletion in the poly (A)9 tract in the coding region near the C-terminal zinc-fingers was identified, resulting in frameshift, in 1 out of 17 leukemia cell lines, but no mutation in samples from 15 patients with acute lymphoblastic leukemia (ALL) and 6 patients with adult T cell leukemia (ATL). In the PR or SH3 (src homology 3) domain of the RIZ gene, no mutation was found. These findings suggest that RIZ may be a possible target of structural alteration leading to leukemia.
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PMID:Nucleotide alteration of retinoblastoma protein-interacting zinc finger gene, RIZ, in human leukemia. 1200 76

The nucleocapsid protein (NC) of HIV type 1 (HIV-1) is a nucleic acid chaperone that facilitates the rearrangement of nucleic acid secondary structure during reverse transcription. HIV-1 NC contains two CCHC-type zinc binding domains. Here, we use optical tweezers to stretch single lambda-DNA molecules through the helix-to-coil transition in the presence of wild-type and several mutant forms of HIV-1 NC with altered zinc-finger domains. Although all forms of NC lowered the cooperativity of the DNA helix-coil transition, subtle changes in the zinc-finger structures reduced NC's effect on the transition. The change in cooperativity of the DNA helix-coil transition correlates strongly with in vitro nucleic acid chaperone activity measurements and in vivo HIV-1 replication studies using the same NC mutants. Moreover, Moloney murine leukemia virus NC, which contains a single zinc finger, had little effect on transition cooperativity. These results suggest that a specific two-zinc-finger architecture is required to destabilize nucleic acids for optimal chaperone activity during reverse transcription in complex retroviruses such as HIV-1.
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PMID:Specific zinc-finger architecture required for HIV-1 nucleocapsid protein's nucleic acid chaperone function. 1208 21

In vitro studies have indicated that retroviral nucleocapsid (NC) protein facilitates both DNA synthesis by reverse transcriptase (RT) and annealing of the nascent DNA with acceptor template. Increasing the rate of DNA synthesis is expected to reduce the frequency of RT template switching, whereas annealing the nascent DNA with acceptor template promotes template switching. We performed a mutational analysis of the murine leukemia virus (MLV) NC zinc finger domain to study its effect on RT template switching in vivo and to explore the role of NC during reverse transcription. The effects of NC mutations on RT template switching were determined by using a previously described in vivo direct-repeat deletion assay. A trans-complementation assay was also developed in which replication-defective NC mutants were rescued by coexpression of replication-defective RT mutants that provided wild-type NC in trans. We found that mutations in the MLV NC zinc finger domain increased the frequency of template switching approximately twofold. When a predicted stem-loop RNA secondary structure was introduced into the template RNA, the template-switching frequency increased 5-fold for wild-type NC and further increased up to an additional 6-fold for NC zinc finger domain mutants, resulting in an overall increase of as much as 30-fold. Thus, wild-type NC increased the efficiency with which RT was able to reverse transcribe through regions of RNA secondary structure that might serve as RT pause sites. These results provide the first in vivo evidence that NC enhances the rate of DNA synthesis by RT in regions of the template possessing stable RNA secondary structure.
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PMID:Zinc finger domain of murine leukemia virus nucleocapsid protein enhances the rate of viral DNA synthesis in vivo. 1209 60

The purpose of the present study was to characterize the human Helios gene products expressed in leukemia cells. A 3.5 kb human Helios cDNA clone was isolated from a human T-cell cDNA library derived from the human T-acute lymphoblastic leukemia (ALL) cell line JURKAT. This cDNA clone had a unique open reading frame (ORF) encoding a novel 304 amino acid (AA) peptide, which was designated as Helios 3. The sequence of the 289 AA C-terminal portion of Helios 3 downstream of V-16 is identical to the corresponding sequence found in Helios 1 and 2 and contains two zinc fingers. By contrast, the 15 AA N-terminal portion of Helios 3 is unique and does not contain the N-terminal zinc finger motifs that are conserved in Helios 1 and 2 as well as other previously identified members of the Ikaros family. Southern blot analysis of genomic DNA fragments of the human Helios gene locus showed that Helios 3 is encoded by the same genomic locus as Helios 1 and 2. The expression of Helios 3 mRNA was not restricted to T-lineage ALL cells or another immunophenotypically distinct subset of leukemias. Helios 3 mRNA was expressed in freshly obtained primary leukemic cells from six of 15 children with newly diagnosed ALL. Helios 3 exhibited a unique protein interaction profile via its N-terminal portion, which may have biological significance in pathogenesis of human leukemias.
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PMID:Expression of a unique helios isoform in human leukemia cells. 1215 74

Chicken ovalbumin upstream promoter transcription factor (COUP-TF)-interacting proteins 1 and 2 [CTIP1/Evi9/B cell leukaemia (Bcl) l1a and CTIP2/Bcl11b respectively] are highly related C(2)H(2) zinc finger proteins that are abundantly expressed in brain and the immune system, and are associated with immune system malignancies. A selection procedure was employed to isolate high-affinity DNA binding sites for CTIP1. The core binding site on DNA identified in these studies, 5'-GGCCGG-3' (upper strand), is highly related to the canonical GC box and was bound by a CTIP1 oligomeric complex(es) in vitro. Furthermore, both CTIP1 and CTIP2 repressed transcription of a reporter gene harbouring a multimerized CTIP binding site, and this repression was neither reversed by trichostatin A (an inhibitor of known class I and II histone deacetylases) nor stimulated by co-transfection of a COUP-TF family member. These results demonstrate that CTIP1 is a sequence-specific DNA binding protein and a bona fide transcriptional repressor that is capable of functioning independently of COUP-TF family members. These findings may be relevant to the physiological and/or pathological action(s) of CTIPs in cells that do not express COUP-TF family members, such as cells of the haematopoietic and immune systems.
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PMID:COUP-TF (chicken ovalbumin upstream promoter transcription factor)-interacting protein 1 (CTIP1) is a sequence-specific DNA binding protein. 1219 8

Many viruses have developed mechanisms to escape the cellular immune response by inhibiting antigen presentation from major histocompatibility complex (MHC) molecules. Most of these immune escape mechanisms are highly host adapted and specific to a given virus species or family. Recent observations however, suggest that a conserved family of viral proteins is used by both gamma-2 herpesviruses and by poxviruses to downregulate MHC class I. In addition, other cell surface molecules involved in immune recognition by T cells and NK cells are also downregulated. Two open reading frames (ORFs), K3 and K5, of Kaposi's sarcoma associated virus (KSHV) and one ORFs, K3, of murine gamma herpesvirus 68 (MHV 68) inhibit surface expression of MHC I molecules. In cells transfected with KSHV-K3 and KSHV-K5, MHC I is rapidly endocytosed and degraded in lysosomes whereas in MHV 68-K3 transfected cells, MHC I is targeted for proteasomal degradation. The K3 and K5 genes display a characteristic conserved domain structure of an amino-terminal plant homeo domain/leukemia associated protein-zinc finger domain followed by two carboxyterminal transmembrane domains. Related proteins are not only found in other gamma-2 herpesviruses, but also in several poxviruses. Moreover, recent data suggest that the K3-related protein of myxoma virus also downregulates MHC I. The presence of similar genes in eukaryotic genomes further indicates that the viral ORFs were originally derived from host genes of as yet unknown function. The molecular mechanism of MHC I downregulation by this novel gene family is only poorly understood at present. However, several lines of evidence suggest that they might function as ubiquitin ligases that regulate the intracellular transport of transmembrane proteins through ubiquitination.
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PMID:Immune evasion by a novel family of viral PHD/LAP-finger proteins of gamma-2 herpesviruses and poxviruses. 1229 27

The retinoblastoma protein-interacting zinc finger gene (RIZ), a member of the nuclear protein methyltransferase superfamily, is characterized by the presence of the N-terminal PR domain. The RIZ gene encodes for two proteins, RIZ1 and RIZ2. While RIZ1 contains the PR (PRDI-BF1 and RIZ homologous) domain, RIZ2 lacks it. RIZ gene expression is altered in a variety of human cancers and RIZ1 is now considered to be a candidate tumour suppressor. To investigate the role of RIZ in leukaemogenesis, we analysed the differential expression of RIZ1 and RIZ2 by quantitative real-time reverse-transcription polymerase chain reaction assay. Our results showed that the expression of RIZ1 was significantly decreased in leukaemia cell lines (14 out of 17, 82%) and in patients with acute myeloblastic leukaemia (eight out of 14, 57%). In contrast, RIZ2 expression was increased in patients with acute lymphoblastic leukaemia (eight out of 11, 73%), compared with normal bone marrow cells. These findings indicate that suppression of RIZ1 expression or enhancement of RIZ2 expression may have an important role in leukaemogenesis.
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PMID:Altered expression of retinoblastoma protein-interacting zinc finger gene, RIZ, in human leukaemia. 1247 71

Transcription factor GATA-2 is a member of GATA family which binds a common DNA sequence motif [T/A (GATA) A/G] through an evolutionarily conserved zinc finger domain. An essential role for GATA-2 in the development of hematopoietic cells has recently been shown in gene knockout experiments in mice. GATA-2 gene disruption makes reduction in all hematopoietic precursors, whereas enforced expression of GATA-2 blocks normal hematopoiesis. GATA-2 exerts regulation in early embryo and cooperates with other GATA transcription factors in proliferation and differentiation of myeloid, erythroid, megakaryocytic and mast cell lineages. GATA-2 mRNA and protein could be detected in human myelogenous leukemia cell lines and in most patients with primary leukemias. Some data revealed that GATA-2 could transactivate the Cas-Br-E and graffi retroviruses, which can induce myelogenous leukemia in mice. However, the role of GATA-2 in pathogenesis of leukemia is still not well understood.
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PMID:The Role of Transcription Factor GATA-2 in Early Hematopoiesis. 1257 22

The translocation E26 transforming-specific (ETS) leukaemia (TEL), alias the ETS variant (ETV6), gene is expressed in most human tissues and encodes a transcriptional repressor. The TEL gene is involved in more than 40 different chromosomal translocations associated with haematological malignancies. As little is known about the function of intact TEL, we searched for TEL-interacting proteins by yeast two-hybrid screening. Among the interacting partners, we identified the histone acetyltransferase protein Tip60 [60 kDa trans-acting regulatory protein of HIV type 1 (Tat)-interacting protein]. The interaction was reproduced in vitro, and in mammalian cells we mapped the interaction regions in TEL to the ETS domain and those in Tip60 to the MYST ('MOZ, Ybf2/Sas3, SAS2 and Tip60', where MOZ stands for male absent on the first, SAS for something about silencing and Ybf2 for identical with SAS2) region. Detailed analysis of the Tip60 MYST domain by introduction of point mutations revealed that an N-terminal C2HC zinc finger was essential for interaction with TEL. Finally, we showed that Tip60 functions in a reporter system as a co-repressor in TEL-mediated transcription repression.
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PMID:The acetyltransferase 60 kDa trans-acting regulatory protein of HIV type 1-interacting protein (Tip60) interacts with the translocation E26 transforming-specific leukaemia gene (TEL) and functions as a transcriptional co-repressor. 1273 28


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