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Query: UMLS:C0019693 (
HIV
)
170,526
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
TAK/P-TEFb is an elongation factor for RNA polymerase II-directed transcription that is thought to function by phosphorylating the C-terminal domain of the largest subunit of RNA polymerase II. TAK/P-TEFb is composed of Cdk9 and
cyclin T
and serves as the cellular cofactor for the human immunodeficiency virus transactivator Tat protein. In this study, we examined the subcellular distribution of Cdk9 and cyclin T1 using high resolution immunofluorescence microscopy and found that Cdk9 and cyclin T1 localized throughout the non-nucleolar nucleoplasm, with increased signal present at numerous foci. Both Cdk9 and cyclin T1 showed only limited colocalization with different phosphorylated forms of RNA polymerase II. However, significant colocalization with antibodies to several splicing factors that identify nuclear 'speckles' was observed for Cdk9 and especially for cyclin T1. The pattern of Cdk9 and cyclin T1 distribution was altered in cells treated with transcription inhibitors. Transient expression of cyclin T1 deletion mutants indicated that a region in the central portion of cyclin T1 is important for accumulation at speckles. Furthermore, cyclin T1 proteins that accumulated at speckles were capable of recruiting Cdk9 and the
HIV
Tat protein to this compartment in overexpression experiments. These results suggest that cyclin T1 functions to recruit its binding partners to nuclear speckles and raises the possibility that nuclear speckles are a site of TAK/P-TEFb function.
...
PMID:The Cdk9 and cyclin T subunits of TAK/P-TEFb localize to splicing factor-rich nuclear speckle regions. 1128 25
Tat-mediated activation of the
HIV
-1 promoter activity requires Tat-dependent recruitment of the cyclinT1/CDK9 complex (P-TEFb) to the transacting element (TAR) RNA. Tat interaction with the cyclinT1, the regulatory partner of CDK9, results in a specific recruitment of the heterodimer
CycT1
/CDK9 complex to TAR, whereby it promotes transcription elongation of the
HIV
-1 LTR-mediated transcription. Using the yeast two-hybrid protein interaction assay we analyzed the binding between cyclinT1 and CDK9. Moreover, using a modified three-hybrid yeast interaction system, we analyzed the recruitment of
CycT1
to the Tat/TAR complex. The data presented here demonstrated that distinct domains of cyclinT1 interact with CDK9 and Tat/TAR in vivo. These findings will be instrumental for the designing of proper dominant-negative P-TEFb components capable to interfere with Tat function. J. Cell. Biochem. Suppl. 36: 247-253, 2001.
...
PMID:Distinct regions of cyclinT1 are required for binding to CDK9 and for recruitment to the HIV-1 Tat/TAR complex. 1145 89
Human immunodeficiency virus type 1 (HIV-1) gene expression and replication is highly dependent on and modulated by interactions between viral and host cellular factors. Tat protein, encoded by one of the
HIV
-1 regulatory genes, tat, is essential for
HIV
-1 gene expression. A number of host cellular factors have been shown to interact with Tat in this process. During our attempts to determine the molecular mechanisms of Tat interaction with brain cells, we isolated a cDNA clone that encodes a novel Tat-interacting protein of 110 kDa or Tip110 from a human fetal brain cDNA library. GenBank BLAST search revealed that Tip110 was almost identical to a previously cloned KIAA0156 gene with unknown functions. In vivo binding of Tip110 with Tat was confirmed by immunoprecipitation and Western blotting, in combination with mutagenesis. The yeast three-hybrid RNA-protein interaction assay indicated no direct interaction of Tip110 with Tat transactivating response element RNA. Nevertheless, Tip110 strongly synergized with Tat on Tat-mediated chloramphenicol acetyltransferase reporter gene expression and
HIV
-1 virus production, whereas down-modulation of constitutive Tip110 expression inhibited
HIV
-1 virus production. Northern blot analysis showed that Tip110 mRNA was expressed in a variety of human tissues and cells. Moreover, digital fluorescence microscopic imaging revealed that Tip110 was expressed exclusively in the nucleus, and within a nuclear speckle structure that has recently been described for human
cyclin T
and CDK9, two critical components for Tat transactivation function on
HIV
-1 long terminal repeat promoter. Taken together, these data demonstrate that Tip110 regulates Tat transactivation activity through direct interaction, and suggest that Tip110 is an important cellular factor for
HIV
-1 gene expression and viral replication.
...
PMID:HIV-1 Tat protein-mediated transactivation of the HIV-1 long terminal repeat promoter is potentiated by a novel nuclear Tat-interacting protein of 110 kDa, Tip110. 1195 60
Positive transcription elongation factor-b (P-TEFb) contains CDK9 and
cyclin T
(1). P-TEFb was affinity purified from a stably transfected cell line that expresses epitope-tagged CDK9, and proteins that appeared to be specifically bound were sequenced. In addition to CDK9, previously identified isoforms of
cyclin T
(including T(1), T(2A) and T(2B)), HSP90 and CDC37, this analysis identified a novel protein named MCEF. Cloning of its cognate cDNA revealed that MCEF is the newest member of the AF4 family of transcription factors involved in acute lymphoblastic leukemia. MCEF RNA was expressed in all human tissues examined, and antisera directed against recombinant MCEF specifically immunoprecipitated P-TEFb. Ectopic expression of MCEF did not activate
HIV
-1 replication, and tethering of MCEF to a promoter did not activate transcription.
...
PMID:MCEF, the newest member of the AF4 family of transcription factors involved in leukemia, is a positive transcription elongation factor-b-associated protein. 1206 98
The metazoan transcription elongation factor P-TEFb (CDK-9/
cyclin T
) is essential for
HIV
transcription, and is recruited by some cellular activators. P-TEFb promotes elongation in vitro by overcoming pausing that requires the SPT-4/SPT-5 complex, but considerable evidence indicates that SPT-4/SPT-5 facilitates elongation in vivo. Here we used RNA interference to investigate P-TEFb functions in vivo, in the Caenorhabditis elegans embryo. We found that P-TEFb is broadly essential for expression of early embryonic genes. P-TEFb is required for phosphorylation of Ser 2 of the RNA Polymerase II C-terminal domain (CTD) repeat, but not for most CTD Ser 5 phosphorylation, supporting the model that P-TEFb phosphorylates CTD Ser 2 during elongation. Remarkably, although heat shock genes are cdk-9-dependent, they can be activated when spt-4 and spt-5 expression is inhibited along with cdk-9. This observation suggests that SPT-4/SPT-5 has an inhibitory function in vivo, and that mutually opposing influences of P-TEFb and SPT-4/SPT-5 may combine to facilitate elongation, or insure fidelity of mRNA production. Other genes are not expressed when cdk-9, spt-4, and spt-5 are inhibited simultaneously, suggesting that these genes require P-TEFb in an additional mechanism, and that they and heat shock genes are regulated through different P-TEFb-dependent elongation pathways.
...
PMID:CDK-9/cyclin T (P-TEFb) is required in two postinitiation pathways for transcription in the C. elegans embryo. 1218 67
Cdk9 is a member of the Cdc2-like family of kinases. It binds to members of the family of
cyclin T
(T1, T2a and T2b) and to cyclin K. The Cdk9/
cyclin T
complex appears to be involved in regulating several physiological processes. In fact Cdk9 is the kinase of the P-TEFb complex, involved in basal transcription. Cdk9 has also been described as the kinase of the TAK complex, homologous to P-TEFb and involved in
HIV
replication. Here we show that Cdk9 interacts with gp130, the receptor of the Interleukin-6 (IL-6) family of cytokines, which includes Leukemia Inhibitory Factor (LIF), Oncostatin M (OSM), Ciliary Neurotrophic Factor (CNTF), Interleukin-11 (IL-11) and Cardiotrophin (CT-1). IL-6 is a key regulator of hematopoiesis, immunological responses and inflammation. In addition, IL-6 plays a major role in the endocrine and nervous systems. Signal transduction by gp130 is mediated by physical interaction of the cytoplasmic region of gp130 with cellular kinases and results in the transcriptional activation of cellular and viral genes. We found that Cdk9 interacts in vitro with the cytoplasmic region of gp130 and we succeded in reproducing this interaction in vivo. Cdk9 expression was found both in the nucleus and in the cytoplasm. The binding occurring between Cdk9 and gp130 increased upon IL-6 stimulation. We also observed that Cdk9 synergized with IL-6 in inducing the activation of an IL-6-responsive reporter plasmid. In summary, these results point to a previously undisclosed role for Cdk9 in signal transduction.
...
PMID:Cdk9, a member of the cdc2-like family of kinases, binds to gp130, the receptor of the IL-6 family of cytokines. 1238 8
Cdk9 is a member of the Cdc2-like family of kinases. Its cyclin partners are members of the family of
cyclin T
(T1, T2a and T2b) and cyclin K. The Cdk9/
cyclin T
complexes appear to be involved in regulating several physiological processes. Cdk9/cyclin T1 belongs to the P-TEFb complex, and is responsible for the phosphorylation of the carboxyl-terminal domain (CTD) of the RNA Polymerase II, thus promoting general elongation. Cdk9 has also been described as the kinase of the TAK complex, which is homologous to the P-TEFb complex and involved in
HIV
replication. Cdk9 also appears to be involved in the differentiation program of several cell types, such as muscle cells, monocytes and neurons, suggesting that it may have a function in controlling specific differentiative pathways. In addition, Cdk9 seems to have an anti-apoptotic function in monocytes, that may be related to its control over differentiation of monocytes. This data suggests the involvement of Cdk9 in several physiological processes in the cell, the deregulation of which may be related to the genesis of transforming events, that may in turn lead to the onset of cancer. In addition, since the complex Cdk9/cyclin T1 is able to bind to the
HIV
-1 product Tat, the study of the functions of Cdk9/
cyclin T
may be of interest in understanding the basal mechanisms that regulate
HIV
replication.
...
PMID:CDK9: from basal transcription to cancer and AIDS. 1243 43
A small animal model would be very valuable for
HIV
/AIDS vaccine testing, investigating
HIV
pathophysiology, and exploring anti-
HIV
therapeutics. Unfortunately,
HIV
does not replicate in mouse cells. Provision of mouse cells with human CD4, CCR5 and cyclin T1 (cycT1) has uncovered a block to
HIV
assembly or release. Since mouse-human cell fusions allow viral replication, mouse cells lack at least one critical factor that permits completion of the viral life cycle. To identify this factor(s) we are employing 2 similar genetic approaches. Each cell line of a panel of monochromosomal mouse-human somatic cell hybrids was individually transduced with an
HIV
vector encoding both cycT1 and blasticidin resistance (HIV-CIB). Each was then transfected with vesicular stomatitis virus (VSV) G protein and measurable virus was recovered from only the hybrid-containing chromosome 2. This was verified with an M-tropic envelope and was shown to be specific to
HIV
. In addition, the amount of p24 release from that hybrid was substantially greater than that from the parent. A second cell line expressing chromosome 2 had a similar phenotype.
CycT1
has been introduced into one chromosome 2 line to monitor the spread of
HIV
. In a related but separate approach, an entire collection of approximately 500 mouse-human microcell hybrids was transduced with
HIV
-CIB and broken down into manageable pools. Virus was similarly recovered as above from a few of the pools. Those pools were then broken down to clones and several cell clones have been identified that allow virus release. Revertants that no longer have the human chromosome are now being tested for loss of phenotype. Clones will then be tested for ability to support both
HIV
replication and Gag processing. Human chromosomal content of the clones of greatest interest will be determined by STS content analysis. Results from the 2 approaches are expected to be in agreement and may provide direction for an expression cloning approach.
...
PMID:Development of a mouse model for HIV/AIDS. 1284 74
Human immunodeficiency virus type 1 (HIV-1) can infect quiescent cells; however, viral production is restricted to actively proliferating cells. Recent evidence has indicated that
HIV
-1 viral proteins, Vpr and Tat, perturb the cell cycle to optimize
HIV
-1 replication. Vpr arrests the cell cycle at G2 by inactivating the cyclin B/cdk1 complex. Tat regulates the cell cycle by altering factors involved in proliferation and differentiation (i.e. the cdk inhibitor p21/waf1) and associating with cyclin/cdk complexes (i.e. cyclin E/cdk2, cyclin H/cdk7, and
cyclin T
/cdk9). These studies indicate the importance of host cellular factors, such as cyclin/cdk complexes, in regulating
HIV
-1 replication and therefore represent novel targets for antiviral therapeutics. Recently, the efficacy of pharmalogical cdk inhibitors (PCIs) in abrogating viral replication has been under development. To date there are 25-30 PCIs that have been synthesized against known cdks, several of which have been shown to inhibit
HIV
-1 and other AIDS-associated viruses in vitro and in vivo. Targeting these critical cyclin/cdk complexes needed for viral propagation may solve the problems inherent in current HAART therapy, including the emergence of drug-resistant viruses. Thus, PCIs have the potential to become novel therapeutic antiviral drugs that can inhibit
HIV
-1 transcription and opens the possibility of new avenues of treatment.
Curr
HIV
Res 2003 Apr
PMID:Pharmacological cyclin-dependent kinase inhibitors as HIV-1 antiviral therapeutics. 1504 99
Human immunodeficiency virus type 1 (HIV-1) is the etiologic agent of AIDS. Following entry into the host cell, the viral RNA is reverse transcribed into DNA and subsequently integrated into the host genome as a chromatin template. Chromatin structure may be responsible for silencing retroviral gene expression. Transcriptional activation occurs after ATP-dependent chromatin remodeling complexes alter chromatin structure and positioning of nucleosomes. Histone acetyltransferases (HATs), histone deacetylases (HDACs), kinases, and methyltransferases (HMTs), covalently modify nucleosomes by adding or removing chemical moieties in the N-terminal tails of histones. Recent advances have indicated that
HIV
-1 encoded proteins interact with chromatin remodeling complexes and histone modifying enzymes, implying that chromatin remodeling plays an important role in the
HIV
-1 life cycle. Nucleosomes are positioned on the
HIV
-1 LTR and are barriers to transcription. Following cellular activation, these nucleosomes are modified and repositioned allowing for activation of viral gene expression. Tat recruits various HATs to the
HIV
-1 promoter region and can also be acetylated by some of these enzymes. Unmodified Tat is involved in binding to the CBP/p300 and cdk9/
cyclin T
complexes and facilitates transcription initiation. Acetylated Tat dissociates from the TAR RNA structure and recruits bromodomain-containing chromatin modifying complexes such as p/CAF and SWI/SNF to facilitate transcription elongation. This review summarizes our current knowledge and understanding of chromatin remodeling complexes and their regulation of
HIV
-1 replication, and highlights the important contributions
HIV
-1 research has made to further our understanding of the transcription process.
Curr
HIV
Res 2003 Jul
PMID:Chromatin remodeling and modification during HIV-1 Tat-activated transcription. 1504 58
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