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:C0021051 (immunodeficiency)
71,517 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The regulatory protein Tat is essential for viral gene expression and replication of the human immunodeficiency virus type 1 (HIV-1). Tat transactivates the HIV-1 long terminal repeat (LTR) via its binding to the transactivation responsive element (TAR) and increases the viral transcription. Studies have shown that the binding of arginine and arginine derivatives induces a conformational change of the TAR RNA at the Tat-binding site. The unpaired A17 residue delimits a small cavity which constitutes a receptor site for small molecules, especially for ethidium bromide. These binding characteristics have prompted us to design a series of ethidium-arginine conjugates capable of interacting with the TAR RNA. Here we report the synthesis of six ethidium derivatives equipped with arginine side chains. These molecules were biologically evaluated, and two compounds (17 and 20) exhibited in vitro anti-HIV-1 activity at micromolar concentration, without toxicity (up to 100 microM concentration). Melting temperature studies indicated that the most active molecule (20) bound strongly to TAR in vitro. RNase protection experiments agreed with the molecular modeling studies which suggested that the ethidium moiety of 20 was inserted next to the A17 residue while the arginine side chain occupied the pyrimidine bulge.
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PMID:Synthesis and antiviral activity of ethidium-arginine conjugates directed against the TAR RNA of HIV-1. 1051 74

The biologically relevant and active form of human immunodeficiency virus reverse transcriptase is a heterodimer produced in a two-step dimerization process. Dimerization involves first the rapid association of the two subunits, followed by a slow conformational change yielding a fully active form. In the present study, we demonstrate that the interaction between the thumb domain of p51 and the RNase-H domain of p66 plays a major role in an essential conformational change required for proper folding of the primer/template and the tRNA-binding site, for maturation and for activation of heterodimeric reverse transcriptase. A synthetic peptide derived from the sequence within the thumb domain of p51, which forms the interface with the RNase-H domains of p66, binds heterodimeric reverse transcriptase with an apparent dissociation constant in the nanomolar range and selectively inhibits activation of heterodimeric reverse transcriptase with an inhibition constant of 1.2 microM. A detailed study of the mechanism of inhibition reveals that this peptide does not require dissociation of heterodimeric RT for efficient inhibition and does not affect subunit association, but interferes with the conformational change required for activation of heterodimeric reverse transcriptase, resulting in a decrease in the affinity of reverse transcriptase for the tRNA and an increase in the stability of the primer/template/reverse transcriptase complex. We have previously proposed that the dimeric nature of reverse transcriptase represents an interesting target for the design of antiviral agents. On the basis of this work, we propose that the conformational changes involved in the activation of reverse transcriptase similarly represent an important target for the design of novel antiviral compounds.
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PMID:The thumb domain of the P51-subunit is essential for activation of HIV reverse transcriptase. 1056 92

The RNase H family of enzymes degrades RNA in RNA.DNA hybrids in a divalent cation-dependent manner. RNases H from diverse sources such as Escherichia coli and human immunodeficiency virus (HIV) share homologous metal-binding active sites, and the activity of the RNase H domain of reverse transcriptase (RT) is required for retroviral replication. The isolated RNase H domain from HIV RT, however, is inactive. In contrast, the RNase H domain of Moloney murine leukemia virus (MMLV) is active, enabling functional studies. Unlike both E. coli RNase HI and HIV RT, the RNase H activity of MMLV RT shows greater activity in Mn(2+) than Mg(2+). We investigated the effect of mutations in five conserved active-site residues of the isolated MMLV RNase H domain. Mutations in two carboxylates eliminate metal binding while mutations in other active-site residues allow retention of metal ion affinity. Mutations that inactivate E.coli RNase HI in Mg(2+) have similar effects on the Mn(2+)-dependent activity of MMLV RNase H. These results suggest a similar one-metal catalytic mechanism for the Mn(2+)- and Mg(2+)-dependent activities of both prokaryotic and retroviral ribonucleases H.
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PMID:Metal binding and activation of the ribonuclease H domain from moloney murine leukemia virus. 1058 3

The beta-chemokine macrophage inflammatory protein (MIP)-1alpha, MIP-1beta, and RANTES are critical for recruitment of inflammatory cells into infected tissue. Moreover, by binding to the human immunodeficiency virus (HIV) coreceptor CCR5, release of these chemokines could influence the course of HIV infection. beta-chemokine gene expression and release was determined by ELISA and RNase protection assay, respectively, in peripheral blood mononuclear cells (PBMC) from HIV-negative and -positive persons stimulated with Candida albicans and Cryptococcus neoformans, 2 fungi common in HIV-infected persons. Gene expression and/or release of all 3 chemokines was seen in response to both fungi although C. albicans was more potent than C. neoformans. Fungal stimulated chemokine production by HIV-positive PBMC was similar to that in HIV-negative PBMC, suggesting that the scant inflammatory response often seen in AIDS patients with cryptococcosis and candidiasis is not secondary to suboptimal beta-chemokine release.
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PMID:Stimulation of macrophage inflammatory protein-1alpha, macrophage inflammatory protein-1beta, and RANTES by Candida albicans and Cryptococcus neoformans in peripheral blood mononuclear cells from persons with and without human immunodeficiency virus infection. 1066 79

A complex between the Tat protein, encoded by human immunodeficiency virus type 1 (HIV-1), and the cellular protein, Puralpha, has been implicated in activation of the late promoter of JC virus (JCV) and in enhancement of JCV DNA replication. JCV is the causative agent of progressive multifocal leukoencephalopathy (PML), an acquired immunodeficiency syndrome (AIDS) opportunistic infection of the brain. Puralpha also binds the HIV-1 TAR RNA element and activates HIV-1 transcription, suggesting a role for RNA binding in the action of this protein. Using immunoelectron microscopy, we find that in human glial cells expressing both proteins, Tat and Puralpha are colocalized in extranucleolar chromatin structural elements. The colocalized Puralpha and Tat are nearly exclusively nuclear, although individual proteins can be seen in both nucleus and cytoplasm, suggesting a preferential tropism of the complex for the nucleus. Analysis of the interaction between purified proteins indicates that the Tat-Puralpha interaction is strongly enhanced by the presence of RNA. Tat amino acids from 37-48 are essential for Tat binding. Residues 49-72, including the TAR RNA-binding domain, are critical for binding to Puralpha, while Cys(22), in the Tat transactivation domain, is responsible for an important global effect. Puralpha repeat II domains are involved in the interaction, and a polypeptide based on one such sequence inhibits binding. After RNase treatment of Puralpha enhancement of Tat binding can be partially restored by addition of a single-stranded JCV DNA PUR element, to which Tat does not bind. The results indicate that the Tat-Puralpha interaction is direct, rather than through an RNA link, and that RNA binding configures Puralpha for optimal interaction with Tat.
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PMID:Interaction of HIV-1 Tat with Puralpha in nuclei of human glial cells: characterization of RNA-mediated protein-protein binding. 1067 17

Ribonuclease H (RNase H) selectively degrades the RNA strand of RNA.DNA hybrids in a divalent cation-dependent manner. Previous structural studies revealed a single Mg(2+) ion-binding site in Escherichia coli RNase HI. In the crystal structure of the related RNase H domain of human immunodeficiency virus reverse transcriptase, however, two Mn(2+) ions were observed suggesting a different mode of metal binding. E. coli RNase HI shows catalytic activity in the presence of Mg(2+) or Mn(2+) ions, but these two metals show strikingly different optimal concentrations. Mg(2+) ions are required in millimolar concentrations, but Mn(2+) ions are only required in micromolar quantities. Based upon the metal dependence of E. coli RNase HI activity, we proposed an activation/attenuation model in which one metal is required for catalysis, and binding of a second metal is inhibitory. We have now solved the co-crystal structure of E. coli RNase HI with Mn(2+) ions at 1.9-A resolution. Two octahedrally coordinated Mn(2+) ions are seen to bind to the enzyme-active site. Residues Asp-10, Glu-48, and Asp-70 make direct (inner sphere) coordination contacts to the first (activating) metal, whereas residues Asp-10 and Asp-134 make direct contacts to the second (attenuating) metal. This structure is consistent with biochemical evidence suggesting that two metal ions may bind RNase H but liganding a second ion inhibits RNase H activity.
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PMID:Co-crystal of Escherichia coli RNase HI with Mn2+ ions reveals two divalent metals bound in the active site. 1108 78

The retroviral primary transcription product is a multifunctional RNA that is utilized as pre-mRNA, mRNA, and genomic RNA. The relationship between human immunodeficiency virus type 1 (HIV-1) unspliced transcripts used as mRNA for viral protein synthesis and as virion precursor RNA (vpRNA) for encapsidation remains an important question. We developed a biochemical assay to evaluate the hypothesis that prior utilization as mRNA template for protein synthesis is necessary to generate vpRNA. HIV-1-infected T cells were treated with translation inhibitors under conditions that maintain virus production. Immunoprecipitation of newly synthesized HIV-1 Gag protein revealed that de novo translation is not necessary to sustain assembly, release, or processing of Gag structural protein. Both newly synthesized protein and steady-state Gag are competent for assembly, and the extracellular accumulation of Gag is proportional to the intracellular abundance of Gag. As early as 2 h after transcription, newly synthesized RNA is detectable in cell-free virions and encapsidation is sustained upon inhibition of host cell translation. Results of both [(3)H]uridine incorporation assays and HIV-1-specific RNase protection assays (RPAs) indicate that translation inhibition reduces the absolute amounts of both cytoplasmic and virion-associated RNA. Evaluation of encapsidation efficiency by RPA revealed that the cytoplasmic availability of vpRNA is increased, indicating that HIV-1 unspliced mRNA can be rerouted to function as vpRNA. Our data contrast with results from the HIV-2 and murine leukemia virus systems and indicate that HIV-1 unspliced RNA constitutes a single functional pool that can function interchangeably as mRNA and as vpRNA.
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PMID:Translation is not required To generate virion precursor RNA in human immunodeficiency virus type 1-infected T cells. 1109 Jan 50

The human immunodeficiency virus type 1 (HIV-1) Tat protein has been reported to transactivate several cellular genes, including the potent chemotactic factor interleukin-8 (IL-8). Consistent with these in vitro assays, elevated levels of IL-8 protein are found in the serum of HIV-infected individuals. We now extend these observations by demonstrating that Tat induction of IL-8 is linked to the cell cycle. Cells that constitutively express the Tat(1-86) protein (eTat) and control cells (pCEP) were reversibly blocked at the G(1)/S border with hydroxyurea or thymidine. The cells were subsequently released, and IL-8 expression was monitored by RNase protection assays and enzyme-linked immunosorbent assay (ELISA). RNase protection assays demonstrated that IL-8 mRNA expression is transiently induced, approximately fourfold, as the Tat-expressing cells enter S phase. Consistent with the RNase protection assay, an increase in IL-8 protein was observed in the cell supernatant using an IL-8 ELISA. Similar experiments were performed following a reversible block at the G(2)/M border with nocodazole and release into G(1). Using the RNase protection assay and ELISA, little or no increase in IL-8 expression was observed during G(1). Using gel shift as well as an immobilized DNA binding assay, we demonstrate that the increase in IL-8 gene expression correlates with a specific increase in p65 NF-kappa B binding activity only in the nucleus of the Tat-expressing cells. Moreover, the CREB-binding protein coactivator is present in the complex in the Tat cell line. Finally, we demonstrate that the presence of the proteasome inhibitor MG-132 inhibits the induction of NF-kappa B binding, as well as IL-8 expression, supporting the role of NF-kappa B.
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PMID:Cell cycle regulation of human interleukin-8 gene expression by the human immunodeficiency virus type 1 Tat protein. 1116 Jun 71

A human immunodeficiency virus type 1 (HIV-1)-based retroviral vector pseudotyped with HIV envelope containing the herpes simplex virus-thymidine kinase (HSV-TK) gene under the control of the HIV LTR promoter (pHXTKN) was constructed and stably transferred into human CD4(+) H9, CEM, and U937 cells. RNase protection assays did not initially detect expression of the HSV-TK gene in HXTKN-transduced CD4(+) cells (HXTKN/CD4), but expression was then efficiently induced by infection with HIV-1. MTT assays showed that after HIV-1 infection, the susceptibility of HXTKN/CD4 cells to ganciclovir (GCV) was 1000-fold higher than prior to infection. This enabled HIV-1-infected cells to be selectively killed by transduction with HXTKN followed by exposure to GCV. Because the HSV-TK gene is specifically transferred into HIV-1-permissive cells and expressed only after HIV-1 infection, the frequency of unwanted cell death should be low. Elimination of the HIV-1-infected cells effectively inhibited further spread of infectious virus. In addition, the integrated HIV vector sequences were repackaged on infection with HIV-1 and transferred to surrounding untransduced cells. These results are indicative of the potential benefits of using HIV vectors in gene therapies for the treatment of HIV-1 infection.
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PMID:Selective killing of human immunodeficiency virus-infected cells by targeted gene transfer and inducible gene expression using a recombinant human immunodeficiency virus vector. 1117 60

To construct a DNA-linked RNase H, which cleaves RNA site-specifically at high temperatures, the 15-mer DNA, which is complementary to the polypurine-tract sequence of human immunodeficiency virus-1 RNA (PPT-RNA), was cross-linked to the unique thiol group of Cys135 in the Thermus thermophilus RNase HI variant. The resultant DNA-linked enzyme (d15-C135/TRNH), as well as the d15-C135/ERNH, in which the RNase H portion of the d15-C135/TRNH is replaced by the Escherichia coli RNase HI variant, cleaved the 15-mer PPT-RNA site-specifically. The mixture of the unmodified enzyme and the unlinked 15-mer DNA also cleaved the PPT-RNA but in a less strict manner. In addition, this mixture cleaved the PPT-RNA much less effectively than the DNA-linked enzyme. These results indicate that the cross-linking limits but accelerates the interaction between the enzyme and the DNA/RNA substrate. The d15-C135/TRNH cleaved the PPT-RNA more effectively than the d15-C135/ERNH at temperatures higher than 50 degrees C. The d15-C135/TRNH showed the highest activity at 65 degrees C, at which the d15-C135/ERNH showed little activity. Such a thermostable DNA-linked RNase H may be useful to cleave RNA molecules with highly ordered structures in a sequence-specific manner.
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PMID:Efficient cleavage of RNA at high temperatures by a thermostable DNA-linked ribonuclease H. 1123 88


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