UMLS:C0019693 - FACTA Search

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Query: UMLS:C0019693 (HIV)
170,526 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Human immunodeficiency virus, type 1 (HIV-1) Tat protein activates transcription from the HIV-1 long terminal repeat. Tat interacts with TFIIH and Tat-associated kinase (a transcription elongation factor P-TEFb) and requires the carboxyl-terminal domain of the largest subunit of RNA polymerase II (pol II) for transactivation. We developed a stepwise RNA pol II walking approach and used Western blotting to determine the role of TFIIH and P-TEFb in HIV-1 transcription elongation. Our results demonstrate the new findings that P-TEFb is a component of the preinitiation complex and travels with the elongating RNA pol II, whereas TFIIH is released from the elongation complexes before the trans-activation responsive region RNA is synthesized. Our results suggest that TFIIH and P-TEFb are involved in the clearance of promoter-proximal pausing of RNA pol II on the HIV-1 long terminal repeat at different stages.
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PMID:Tat-associated kinase (P-TEFb): a component of transcription preinitiation and elongation complexes. 1006 4

The human immunodeficiency virus type 1 (HIV-1) Tat protein is a transcriptional activator that is essential for efficient viral gene expression and replication. Tat increases the level of full-length transcripts from the HIV-1 promoter by dramatically enhancing the elongation efficiency of the RNA polymerase II complexes assembled on this promoter. Tat could potentially activate the transcription machinery during initiation, elongation, or both. We used an immobilized HIV-1 promoter template with a reversible lac repressor (LacR) elongation block inserted downstream to dissect the stages in transcription affected by Tat. Transcription complexes assembled in the absence of Tat and blocked by LacR cannot be activated by incubation with Tat alone. These complexes can, however, be activated if Tat is added in combination with cellular factors. In this system, Tat also promoted the assembly of preinitiation complexes capable of elongating efficiently, suggesting that Tat can associate with transcription complex at an early stage. These data indicate that Tat can activate elongation of RNA polymerase by modifying an already elongating transcription complex. The data also suggest the possibility that Tat can interact with initiation complexes.
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PMID:Human immunodeficiency virus type 1 Tat-dependent activation of an arrested RNA polymerase II elongation complex. 1006 59

Tat stimulation of HIV-1 transcriptional elongation is species-specific and is believed to require a specific cellular cofactor present in many human and primate cells but not in nonpermissive rodent cells. Human P-TEFb, composed of Cdk9 and cyclin T1, is a general transcription elongation factor that phosphorylates the C-terminal domain of RNA polymerase II. Previous studies have also implicated P-TEFb as a Tat-specific cellular cofactor and, in particular, human cyclin T1 as responsible for the species-specific Tat activation. To obtain functional evidence in support of these hypotheses, we generated and examined the activities of human-rodent "hybrid" P-TEFb complexes. We found that P-TEFb complexes containing human cyclin T1 complexed with either human or rodent Cdk9 supported Tat transactivation and interacted with the Tat activation domain and the HIV-1 TAR RNA element to form TAR loop-dependent ribonucleoprotein complexes. Although a stable complex containing rodent cyclin T1 and human Cdk9 was capable of phosphorylating CTD and mediating basal HIV-1 elongation, it failed to interact with Tat and to mediate Tat transactivation, indicating that the abilities of P-TEFb to support basal elongation and Tat activation can be separated. Together, our data indicated that the specific interaction of human P-TEFb with Tat/TAR, mostly through cyclin T1, is crucial for P-TEFb to mediate a Tat-specific and species-restricted activation of HIV-1 transcription. Amino acid residues unique to human Cdk9 also contributed partially to the formation of the P-TEFb-Tat-TAR complex. Moreover, the cyclin box of cyclin T1 and its immediate flanking region are largely responsible for the specific P-TEFb-Tat interaction.
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PMID:Specific interaction of Tat with the human but not rodent P-TEFb complex mediates the species-specific Tat activation of HIV-1 transcription. 1007 79

Tat stimulates human immunodeficiency virus type 1 (HIV-1) transcriptional elongation by recruitment of the human transcription elongation factor P-TEFb, consisting of Cdk9 and cyclin T1, to the HIV-1 promoter via cooperative binding to the nascent HIV-1 transactivation response RNA element. The Cdk9 kinase activity has been shown to be essential for P-TEFb to hyperphosphorylate the carboxy-terminal domain (CTD) of RNA polymerase II and mediate Tat transactivation. Recent reports have shown that Tat can also interact with the multisubunit transcription factor TFIIH complex and increase the phosphorylation of CTD by the Cdk-activating kinase (CAK) complex associated with the core TFIIH. These observations have led to the proposal that TFIIH and P-TEFb may act sequentially and in a concerted manner to promote phosphorylation of CTD and increase polymerase processivity. Here, we show that under conditions in which a specific and efficient interaction between Tat and P-TEFb is observed, only a weak interaction between Tat and TFIIH that is independent of critical amino acid residues in the Tat transactivation domain can be detected. Furthermore, immunodepletion of CAK under high-salt conditions, which allow CAK to be dissociated from core-TFIIH, has no effect on either basal HIV-1 transcription or Tat activation of polymerase elongation in vitro. Therefore, unlike the P-TEFb kinase activity that is essential for Tat activation of HIV-1 transcriptional elongation, the CAK kinase associated with TFIIH appears to be dispensable for Tat function.
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PMID:Tat activates human immunodeficiency virus type 1 transcriptional elongation independent of TFIIH kinase. 1008 52

Tat activates transcription from the human immunodeficiency virus type 1 (HIV-1) long terminal repeat (LTR) by increasing the processivity of RNA polymerase II. Recently, it has been demonstrated that the cellular kinase CDK9 and its binding partner cyclin T1 are involved in regulating transcriptional elongation and tat-activation. Cyclin T1, CDK9 and Tat bind as a complex to elements in TAR RNA that are required for tat-activation. Here, we used cyclin T1 mutants to define domains in this protein that bind to both CDK9 and Tat and are involved in stimulating tat-activation. The region of cyclin T1 extending from amino acid residues 1 to 263 is necessary for complex formation with Tat bound to TAR RNA and for stimulation of tat-activation in murine cells that are normally poorly responsive to the actions of Tat. In contrast, a smaller region of cyclin T1 was required to bind to CDK9 and stimulate its kinase activity. Recombinant cyclin T1 and CDK9 stimulated both basal and tat-induced in vitro transcriptional elongation from the HIV-1 LTR. The effects of Tat on transcriptional elongation may be mediated by its ability to increase CDK9 phosphorylation of the RNA polymerase II C-terminal domain. These results demonstrate that cyclin T1 interactions with Tat and TAR RNA are critical for activation of HIV-1 gene expression.
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PMID:Cyclin T1 domains involved in complex formation with Tat and TAR RNA are critical for tat-activation. 1032 25

Actinomycin D and alpha-amanitin are commonly used to inhibit transcription. Unexpectedly, however, the transcription of the human immunodeficiency virus (HIV-1) long terminal repeats (LTR) is shown to be activated at the level of elongation, in human and murine cells exposed to these drugs, whereas the Rous sarcoma virus LTR, the human cytomegalovirus immediate early gene (CMV), and the HSP70 promoters are repressed. Activation of the HIV LTR is independent of the NFkappaB and TAR sequences and coincides with an enhanced average phosphorylation of the C-terminal domain (CTD) from the largest subunit of RNA polymerase II. Both the HIV-1 LTR activation and the bulk CTD phosphorylation enhancement are prevented by several CTD kinase inhibitors, including 5, 6-dichloro-1-beta-D-ribofuranosylbenzimidazole. The efficacies of the various compounds to block CTD phosphorylation and transcription in vivo correlate with their capacities to inhibit the CDK9/PITALRE kinase in vitro. Hence, the positive transcription elongation factor, P-TEFb, is likely to contribute to the average CTD phosphorylation in vivo and to the activation of the HIV-1 LTR induced by actinomycin D.
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PMID:The transcriptional inhibitors, actinomycin D and alpha-amanitin, activate the HIV-1 promoter and favor phosphorylation of the RNA polymerase II C-terminal domain. 1034 61

Tat protein strongly activates transcription from the human immunodeficiency virus type 1 (HIV-1) long terminal repeat (LTR) by enhancing the elongation efficiency of RNA polymerase II complexes. Tat-mediated transcriptional activation requires cellular cofactors and specific cis-acting elements within the HIV-1 promoter, among them a functional TATA box. Here, we have investigated the mechanism by which one of these cofactors, termed CA150, regulates HIV-1 transcription in vivo. We present a series of functional assays that demonstrate that the regulation of the HIV-1 LTR by CA150 has the same functional requirements as the activation by Tat. We found that CA150 affects elongation of transcription complexes assembled on the HIV-1 promoter in a TATA-box-dependent manner. We discuss the data in terms of the involvement of CA150 in the regulation of Tat-activated HIV-1 gene expression. In addition, we also provide evidence suggesting a role for CA150 in the regulation of cellular transcriptional processes.
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PMID:Transcriptional cofactor CA150 regulates RNA polymerase II elongation in a TATA-box-dependent manner. 1037 21

HIV-1 gene expression and viral replication require the viral transactivator protein Tat. The RNA polymerase II transcriptional elongation factor P-TEFb (cyclin-dependent kinase 9/cyclin T) is a cellular protein kinase that has recently been shown to be a key component of the Tat-transactivation process. For this report, we studied the requirement for P-TEFb in HIV-1 infection, and we now show that P-TEFb is both essential and limiting for HIV-1 replication. Attenuation of P-TEFb kinase activity either by expression of a dominant-negative cyclin-dependent kinase 9 transgene or through the use of small-molecule inhibitors suppresses HIV-1 gene expression and HIV-1 replication. Inhibition of HIV-1 replication is affected in a manner consistent with a direct and specific effect on P-TEFb and the known functional role of P-TEFb in Tat-activated transcription. Tat-activated expression of HIV-1 genes seems uniquely dependent on P-TEFb, as inhibition of P-TEFb activity and HIV-1 replication can be achieved without compromising cell viability or RNA polymerase II-dependent cellular gene transcription. Selective inhibition of the P-TEFb kinase may therefore provide a novel approach for developing chemotherapeutic agents against HIV-1.
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PMID:Host-cell positive transcription elongation factor b kinase activity is essential and limiting for HIV type 1 replication. 1037 93

The c-Abl tyrosine kinase has been shown to interact with the COOH-terminal repeated domain (CTD) of mammalian RNA polymerase II and can phosphorylate the tyrosine residues in the CTD. Interestingly, the Drosophila or the yeast CTD were not efficiently phosphorylated by the mammalian c-Abl. This species-specificity was found to be determined by the extreme COOH-terminal CTD sequences that are not conserved through evolution. In vitro, COOH-terminal-truncated CTD could neither bind to, nor be phosphorylated by, c-Abl. In vivo, coexpression of a full length CTD prevents c-Abl from inducing the tyrosine phosphorylation of endogenous RNA polymerase II, and such inhibitory effect was not observed with the coexpression of COOH-terminal-truncated CTD. Serine/threonine phosphorylation of the CTD has been linked to the regulation of transcription elongation. Transcription from the human immunodeficiency virus type 1 (HIV-1) promoter requires CTD-phosphorylation, which is stimulated by the viral Tat protein through the recruitment of cellular Ser/Thr CTD kinases. In transient cotransfection experiments, the c-Abl kinase was found to activate the HIV promoter in the absence of Tat. The activation of the HIV promoter required the nuclear localization of c-Abl and could be correlated with increased tyrosine phosphorylation of RNA polymerase II. These observations suggest that tyrosine phosphorylation of the CTD may be functionally equivalent to its serine/threonine phosphorylation in stimulating transcription elongation.
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PMID:Nuclear c-Abl is a COOH-terminal repeated domain (CTD)-tyrosine (CTD)-tyrosine kinase-specific for the mammalian RNA polymerase II: possible role in transcription elongation. 1039

The HIV-1-encoded Tat protein controls transcription elongation by increasing processivity of RNA polymerase II (Pol II). Here, we have identified a Tat stimulatory activity (Tat-SF) as a novel RNA Pol II-containing complex. Remarkably, Tat-SF contains the previously identified Tat cofactors Tat-SF1, P-TEFb and hSPT5/Tat-CT1, in addition to RNA Pol II and other unidentified polypeptides, but none of the SRB/MED proteins or other factors found associated with the previously described RNA Pol II holoenzyme complex. Tat-SF supports basal, Sp1-activated and Tat-activated transcription in a reconstituted system, and a Tat-SF-derived fraction lacking RNA Pol II can complement non-responsive RNA Pol II complexes for Tat-enhanced HIV-1 transcription, indicating that Tat-SF contains factors that are critical for Tat function. Both Tat-SF and RNA Pol II holoenzyme are present in HeLa nuclear extracts and each can be recruited to the HIV-1 promoter. Our results indicate that Tat-SF is a Tat cofactor-containing RNA Pol II complex whose recruitment to the promoter provides elongation factors important for Tat-enhanced HIV-1 transcription following TAR RNA synthesis.
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PMID:A novel RNA polymerase II-containing complex potentiates Tat-enhanced HIV-1 transcription. 1039 84

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