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)

Human T-cell leukemia virus type 1 (HTLV-1) immortalizes human CD4+ T lymphocytes in culture. Previous studies show that in the context of a herpesvirus saimiri vector, the sequence of the X region at the 3' end of the HTLV-1 genome is also capable of immortalizing CD4+ lymphocytes in the absence of HTLV-1 structural proteins. The X region of HTLV-1 encodes two trans-acting viral proteins, the 42-kDa Tax protein and the 27-kDa Rex protein. Infection of human cord blood cells with herpesvirus saimiri recombinants which contain HTLV-1 X region sequences defective for expression of tax, rex, or both tax and rex demonstrates that tax function is necessary and sufficient for immortalization of primary human CD4+ cord blood lymphocytes in culture in the context of the herpesvirus saimiri vector.
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PMID:Role of human T-cell leukemia virus type 1 X region proteins in immortalization of primary human lymphocytes in culture. 135 Nov 5

Bovine leukemia virus (BLV) expression is mostly silent in peripheral blood mononuclear cells (PBMCs) of infected animals. However, when infected cells are cultured, they are stimulated to produce virus. We studied viral transcription in PBMCs taken from BLV-infected sheep because the pattern of transcriptional activation in these cells should closely mimic activation of virus expression within mononuclear cells in vivo. BLV transcription was activated as early as 30 min after PBMCs were cultured. Expression was characterized by early and late stages, each distinguished by a unique pattern of cytoplasmic RNAs. In early expression, cytoplasmic viral RNA was exclusively the doubly spliced tax/rex transcript, although all transcripts were present in the nucleus. Early expression gave way rapidly to late expression, in which all viral transcripts accumulated in the cytoplasm. The polyclonal B-cell activator lipopolysaccharide increased the amount of viral RNA by at least twofold but did not alter the pattern of transcription. The transition from early to late expression required new protein synthesis and was blocked by the inhibitor cycloheximide. This requirement reflects the essential role of the viral Rex protein in the transition, but synthesis of cellular factors may be required as well. These results provide the first demonstration of staged viral expression in lymphocytes naturally infected by either BLV or the closely related human T-cell leukemia virus (HTLV) and validate the model of BLV and HTLV gene expression that previously was derived from transfection experiments performed mainly in nonlymphoid cells.
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PMID:Activation of bovine leukemia virus transcription in lymphocytes from infected sheep: rapid transition through early to late gene expression. 137 9

Rex protein, the posttranscriptional regulator of human T-cell leukemia virus type I (HTLV-I), is required for the control of viral structural protein expression and virus replication. Rex is a phosphoprotein found predominantly in the cell nucleolus, whose function is thought to be regulated by its nucleolar localization and phosphorylation. Therefore, we investigated the in vivo phosphorylation of Rex protein in more detail. Phosphorylation of Rex occurred in all HTLV-I-infected cell lines examined in vivo, primarily at serine residues and to a very small extent at threonine residues. Treatment of cells with 12-O-tetradecanoylphorbol-13-acetate (TPA) led to significant but transient enhancement of the incorporation of [32P]orthophosphate into Rex protein. N-terminal truncation of Rex protein abolished TPA-dependent phosphorylation. Chymotryptic digestion of phosphorylated Rex yielded two phosphopeptides. In vivo phosphorylation sites were identified as serine residues 70 and 177 and threonine residue 174. Serine 70 was a TPA-dependent phosphorylation site within a regulatory domain. We have already shown that the protein kinase C inhibitor H-7 (1-(5-isoquinolinylsulfonyl)-2-methylpiperazine) specifically blocked accumulation of viral unspliced gag-pol mRNA. Therefore, the phosphorylation at serine 70 may be involved in the regulation of Rex function in response to extracellular stimuli.
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PMID:Phosphorylation of the Rex protein of human T-cell leukemia virus type I. 140 May 9

The human immunodeficiency virus type 1 Rev and human T-cell leukemia virus type I Rex proteins induce cytoplasmic expression of incompletely spliced viral mRNAs by binding to these mRNAs in the nucleus. Each protein binds a specific cis-acting element in its target RNAs. Both proteins also associated with nucleoli, but the significance of this association is uncertain because mutations that inactivate nucleolar localization signals in Rev or Rex also prevent RNA binding. Here we demonstrate that Rev and Rex can function when tethered to a heterologous RNA binding site by a bacteriophage protein. Under these conditions, cytoplasmic accumulation of unspliced RNA occurs without the viral response elements, mutations in the RNA binding domain of Rev do not inhibit function, and nucleolar localization can be shown to be unnecessary for the biological response.
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PMID:Posttranscriptional regulation by the human immunodeficiency virus type 1 Rev and human T-cell leukemia virus type I Rex proteins through a heterologous RNA binding site. 143 16

Expression of the structural proteins of human T-cell leukemia virus type I is dependent upon the interaction of the viral Rex trans activator with its highly structured cis-acting RNA target sequence, the 254-nucleotide Rex-response element. Nucleotides critical for Rex binding in vitro have been mapped by modification interference analysis to a discrete 12-nucleotide RNA sequence that is predicted to form a stem-bulge-stem structure. This minimal RNA binding site was sufficient to mediate specific Rex binding in vitro when analyzed in the context of a short RNA probe. The critical importance of this short RNA sequence in mediating Rex function in vivo is supported by its complete conservation among all primate T-cell leukemia virus isolates.
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PMID:Specific binding of the human T-cell leukemia virus type I Rex protein to a short RNA sequence located within the Rex-response element. 143 31

The pX region of the human T-cell leukemia/lymphotropic virus type I (HTLV-I) contains at least four open reading frames (orfI-orfIV). orf III and orf IV encode the regulatory HTLV-I proteins Rex and Tax, which together modulate viral expression, and the p21rex protein of unknown function. By using the reverse transcriptase and polymerase chain reaction techniques on the RNA of an HTLV-I-infected cell culture, we uncovered the existence of alternatively spliced mRNAs generated through the use of three splice acceptor sites. These mRNAs encoded protein isoforms derived from the HTLV-I orf I (p12I) and orf II (p13II and p30II). An additional acceptor splice site, used in the processing of the env and tax/rex mRNAs and a singly spliced mRNA for the p21rex protein, was also identified. All of these HTLV-I mRNAs were also detected in freshly isolated cells from HTLV-I-infected individuals. Thus HTLV-I, like the human immunodeficiency virus type 1, has developed fine posttranscriptional mechanisms to increase the complexity of its genome.
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PMID:Protein isoforms encoded by the pX region of human T-cell leukemia/lymphotropic virus type I. 152 97

The human retroviruses human immunodeficiency virus type 1 (HIV-1) and human T-cell leukemia virus type I (HTLV-I) are characterized by complex regulation of gene expression. Each virus encodes a posttranscriptional regulator, the 19-kDa HIV-1 Rev protein and the 27-kDa HTLV-I Rex protein, which is required for viral replication. Expression of these trans activators results in the cytoplasmic accumulation of unspliced or singly spliced viral mRNA which encode the gag, pol, and env gene products. The finding that the HTLV-I Rex protein is able to functionally substitute for the Rev protein of HIV-1 indicates that HIV-1 Rev and HTLV-I Rex may interact with the same component of a cellular pathway involved in either mRNA splicing or transport. In this study, we have generated functional Rev/Rex hybrid proteins by domain exchange. We have defined, using in vivo and in vitro analyses, the activation domains of Rev and Rex which are the putative targets of a common host cell factor(s) required for Rev and Rex function.
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PMID:Definition of the human immunodeficiency virus type 1 Rev and human T-cell leukemia virus type I Rex protein activation domain by functional exchange. 154 84

The Rex protein of human T-cell leukemia virus types I (HTLV-I) and II (HTLV-II) regulates the expression of the viral structural genes and is critical for viral replication. Rex acts by specifically binding to RNAs containing sequences of the R region of the 5' long terminal repeat. Two forms of Rex detected in HTLV-II-infected cells, p26rex and p24rex, differ in the extent of serine phosphorylation. Two-dimensional phosphopeptide analysis indicates that p26rex is extensively phosphorylated at multiple sites. Using a sensitive immunobinding assay, we show that the phosphorylation state of Rex determines the efficiency of binding of Rex to HTLV-II target RNAs. Thus, the phosphorylation state of Rex in the infected cell may be a switch that determines whether virus exists in a latent or productive state. These studies also suggest that phosphorylation of RNA-binding regulatory proteins is a more general mechanism of gene regulation.
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PMID:Phosphorylation regulates RNA binding by the human T-cell leukemia virus Rex protein. 160 46

The 27-kDa Rex trans-acting protein appears to be essential for replication of human T-cell leukemia virus type I. Mutations introduced outside of the Rex RNA-binding domain-nucleolar localization signal display either wild-type activity or, conversely, yield dominant-negative proteins. We generated missense mutations in a particular domain of the Rex protein (amino acid residues 54 to 69) which is characterized by a cluster of dominant-negative mutants. Our results indicate that amino acids 57 to 67 are critically important for Rex function mediated through the RxRE cis-acting RNA sequence. Within this domain, only amino acids 61 to 63 could be mutated without loss of function. All other missense and deletion mutants yielded dominant-negative proteins. In vitro RNA-binding studies performed with glutathione S-transferase-Rex fusion proteins demonstrated that all of the mutant Rex proteins interacted specifically with RxRE RNA. Analysis of chimeric Rex-Rev proteins suggests that this Rex domain is important for oligomerization.
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PMID:Dominant-negative mutants are clustered in a domain of the human T-cell leukemia virus type I Rex protein: implications for trans dominance. 160 59

A 631-bp region of the long terminal repeat (LTR) of a variant of human T-cell lymphoma/leukemia virus type I (HTLV-I), isolated from a healthy member of a remote, recently contacted group (Hagahai) in Papua New Guinea, was sequenced and compared to LTR sequences of other members of the primate T-cell lymphoma virus group (PTLV), including HTLV-I, simian T-cell lymphoma virus (STLV-I) and HTLV-II. Sequence analysis of the LTR of this New Guinean isolate, designated as HTLV-I(PNG-1), indicated a sequence divergence of 8.4% to 10.4% from prototype Japanese HTLV-I(ATK) and other HTLV-I and STLV-I isolates and 48.6% diversity from HTLV-II. Few mutations were found in the core elements of the transcriptional enhancer regions, the TATA box promoter, and the polyadenylation signal and site. Further, the observed changes did not significantly alter the inferred stability of the Rex response element, a stem loop structure critical for polyadenylation and Rex protein binding. Dendograms based on LTR sequences indicated that the strain of virus that evolved into HTLV-I(PNG-1) diverged from the other PTLV in the distant past, just after the progenitors of STLV-I from Asia, but before the ancestors of STLV-I from Africa. By contrast, other HTLV-I isolates were found to represent strains of virus that have diverged more recently and clustered primarily according to their geographical origin. These data confirm that HTLV-I(PNG-1) is a new and distinct variant of the PTLV group. Also, our analyses suggest that both HTLV-I and STLV-I may have originated in the Indo-Malay region and eventually spread to Africa and then to the New World and Japan with horizontal transmission between man and nonhuman primates possibly occurring over thousands of years.
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PMID:LTR sequence and phylogenetic analyses of a newly discovered variant of HTLV-I isolated from the Hagahai of Papua New Guinea. 160 4

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