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

HIV entry and fusion are two steps in the viral life cycle that can be targeted by several classes of antiviral drugs. The discovery of chemokines focused the attention on cellular coreceptors used by the virus for entering within cells, and to the various steps of such processes which are subject to interactions with small molecules. Intense research led to a wide range of effective compounds that are able to inhibit these initial steps of viral replication. All steps in the process of HIV entry into the cell may be targeted by specific compounds that may be developed as novel types of antiretrovirals. Thus, several inhibitors of the gp120-CD4 interaction have been detected so far (zintevir, FP-21399 and BMS-378806 in clinical trials). Small molecule chemokine receptor antagonists acting as HIV entry inhibitors also were described in the last period, which interact both with the CXCR4 coreceptor (such as AMD3100; AMD3465; ALX40-4C; T22, T134 and T140), or which are antagonist of the CCR5 coreceptor (TAK-779, TAK-220, SCH-C, SCH-D, E913, AK-602 and NSC 651016 in clinical trials), together with new types of fusion inhibitors possessing the same mechanism of action as enfuvirtide (such as T1249). Recently, a third family of antivirals started to be used clinically (in addition to the reverse transcriptase and protease inhibitors), with the advent of enfuvirtide (T20), the first fusion inhibitor to be approved as an anti-HIV agent. Some of these compounds demonstrated in vitro synergism with other classes of antivirals, offering thus the rationale for their combination in therapies for HIV-infected individuals. Many HIV entry and fusion inhibitors are currently investigated in controlled clinical trials, and there are a number of them that is bioavailable as oral formulations. This is an essential feature for an extended use of these compounds with the purpose of ameliorating adherence of patients to these medications and preventing the development of drug resistance.
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PMID:An update in the development of HIV entry inhibitors. 1762 57

Betulinic acid (BA) derivatives can inhibit human immunodeficiency virus type 1 (HIV-1) entry or maturation depending on side chain modifications. While BA derivatives with antimaturation activity have attracted considerable interest, the anti-HIV-1 profile and molecular mechanism of BA derivatives with anti-HIV-1 entry activity (termed BA entry inhibitors) have not been well defined. In this study, we have found that two BA entry inhibitors, IC9564 and A43D, exhibited a broad spectrum of anti-HIV-1 activity. Both compounds inhibited multiple strains of HIV-1 from clades A, B, and C at submicromolar concentrations. Clade C viruses were more sensitive to the compounds than clade A and B viruses. Interestingly, IC9564 at subinhibitory concentrations could alter the antifusion activities of other entry inhibitors. IC9564 was especially potent in increasing the sensitivity of HIV-1 YU2 Env-mediated membrane fusion to the CCR5 inhibitor TAK-779. Results from this study suggest that the V3 loop of gp120 is a critical determinant for the anti-HIV-1 activity of IC9564. IC9564 escape viruses contained mutations near the tip of the V3 loop. Moreover, IC9564 could compete with the binding of V3 monoclonal antibodies 447-52D and 39F. IC9564 also competed with the binding of gp120/CD4 complexes to chemokine receptors. In summary, these results suggest that BA entry inhibitors can potently inhibit a broad spectrum of primary HIV-1 isolates by targeting the V3 loop of gp120.
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PMID:Betulinic acid derivatives that target gp120 and inhibit multiple genetic subtypes of human immunodeficiency virus type 1. 1795 89

Monocytes/macrophages (M/M) are strategic reservoirs of HIV-1, spreading the virus to other cells and inducing apoptosis in T-lymphocytes, astrocytes and neurons. M/M are commonly infected by R5 HIV-1 strains, which use the chemokine receptor CCR5. D-Ala-peptide T-amide (DAPTA), or Peptide T, named for its high threonine content (ASTTTNYT), is a synthetic peptide comprised of eight amino acids (185-192) of the gp120 V2 region and functions as a viral entry inhibitor by targeting selectively CCR5. The anti-HIV-1 activity of DAPTA was evaluated in M/M infected with R5 HIV-1 strains. DAPTA at 10(-9) M inhibited HIV-1 replication in M/M by > 90%. PCR analysis of viral cDNA in M/M showed that DAPTA blocks HIV entry and in this way prevents HIV-1 infection. Moreover, DAPTA acts as a strong inhibitor and was more active than the non-peptidic CCR5 antagonist TAK-779 in inhibiting apoptosis (mediated by RS HIV-1 strains produced and released by infected M/M) on a neuroblastoma cell line. Our results suggest that antiviral compounds which interfere with receptor mechanisms such as CCR5 could be important, either alone or in combination with other antiretroviral treatments, in preventing HIV infection in the central nervous system and the consequential neuronal damage that leads to neuronal AIDS.
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PMID:Profound anti-HIV-1 activity of DAPTA in monocytes/macrophages and inhibition of CCR5-mediated apoptosis in neuronal cells. 1804 61

The replication of several R5X4 strains is blocked by single CXCR4 inhibitors such as AMD3100 or T140 although the target cells express both CXCR4 and CCR5 in vitro. To identify which region(s) of the Env are involved in the increased sensitivity to CXCR4 inhibitors, we isolated a T140-escape mutant using R5X4 HIV-1 strain 89.6. An isolated mutant harbored a single amino acid substitution in the V3 region of the Env (arginine 308 to serine R308S). Luciferase-reporter HIV-1 pseudotyped with the mutant Env showed that the substitution conferred total resistance to CXCR4 antagonists but increased sensitivity to a CCR5 antagonist TAK-779 in the infection of the cells expressing both CCR5 and CXCR4. Analyses using the cells expressing a single coreceptor showed that the mutant Env predominantly and efficiently utilized CCR5 rather than CXCR4 while retaining R5X4 phenotype. These results indicated that the sensitivities of the R5X4 strain to coreceptor inhibitors were altered by a single amino acid substitution in the V3 region of gp120.
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PMID:Altered sensitivity of an R5X4 HIV-1 strain 89.6 to coreceptor inhibitors by a single amino acid substitution in the V3 region of gp120. 1816 Jan 42

Pausing of RNA polymerase II (RNAPII) during transcript elongation is an important mechanism for regulating gene expression at many genes. In this study we investigated the mechanism of regulated elongation of c-myc and human immunodeficiency virus-1 (HIV-1) using an in vitro elongation assay that reproduces the conditional block to elongation. We found that HIV-1 Tat can activate the RNAPII transcription complexes paused on c-myc by enhancing their elongation efficiency. We determined that cyclin-dependent kinase 9 (CDK9), the kinase subunit of positive transcription elongation factor b (P-TEFb) complex, regulates transcriptional elongation of c-myc and is present in transcription pre-initiation complexes formed on the c-myc promoter, which emphasizes a common mechanism of elongation control between HIV-1 and c-myc genes. We also investigated the roles of upstream elements of the HIV-1 and c-myc promoters in CDK9-activated transcriptional elongation. We found that the TATA-box element mediates the assembly of processive transcription complexes responsive to CDK9 and that specific combinations of upstream activation binding sites contribute to the recruitment of these complexes. We propose a common mechanism for elongation control at the c-myc and HIV-1 genes with an essential role for the TATA-box and specific modulatory contribution of upstream regulatory sequences, derived from the unique structure of the promoters, to form a composite surface for efficient recruitment of elongation-competent transcription complexes.
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PMID:Promoter influences transcription elongation: TATA-box element mediates the assembly of processive transcription complexes responsive to cyclin-dependent kinase 9. 1821 27

The design and synthesis of a multivalent gold nanoparticle therapeutic is presented. SDC-1721, a fragment of the potent HIV inhibitor TAK-779, was synthesized and conjugated to 2.0 nm diameter gold nanoparticles. Free SDC-1721 had no inhibitory effect on HIV infection; however, the (SDC-1721)-gold nanoparticle conjugates displayed activity comparable to that of TAK-779. This result suggests that multivalent presentation of small molecules on gold nanoparticle surfaces can convert inactive drugs into potent therapeutics.
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PMID:Inhibition of HIV fusion with multivalent gold nanoparticles. 1847 57

The positive transcription elongation factor b (P-TEFb) is a heterodimeric complex composed of cyclin-dependent kinase 9 and its regulator cyclin T1/2. It stimulates transcription elongation by phosphorylation of serine 2 residues in the carboxy-terminal domain of polymerase II. 7SK RNA and HEXIM proteins can antagonize transcriptional stimulation by sequestering P-TEFb in a catalytically inactive ribonucleoprotein (RNP). Here, we show that the previously uncharacterized La-related protein 7 (LARP7) has a role in 7SK-mediated regulation of transcription. LARP7 binds to the highly conserved 3'-terminal U-rich stretch of 7SK RNA and is an integral part of the 7SK RNP. On stimulation, LARP7 remains associated with 7SK RNA, whereas P-TEFb is released. Interestingly, reduction of LARP7 by RNA interference enhances transcription from cellular polymerase II promoters, as well as a TAT-dependent HIV-1 promoter. Thus, LARP7 is a negative transcriptional regulator of polymerase II genes, acting by means of the 7SK RNP system.
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PMID:The La-related protein LARP7 is a component of the 7SK ribonucleoprotein and affects transcription of cellular and viral polymerase II genes. 1848 87

Monocytes are critical precursors of dendritic cells and macrophages, which play an important role in the pathogenesis of human immunodeficiency virus type 1 (HIV-1). HIV-1 postentry infection is blocked in undifferentiated monocytes in vitro, while the underlying mechanisms are not fully understood. HIV-1 Tat-mediated transactivation of the viral long terminal repeat (LTR) promoter is essential for HIV-1 transcription. Two critical cellular cofactors of HIV-1 Tat, cyclin T1 (CycT1) and cyclin-dependent kinase 9 (CDK9), are required for LTR-directed HIV-1 transcription. In addition to the previously identified restrictions in early viral life cycle, we find that HIV-1 gene expression is impaired in undifferentiated primary monocytes. Transfection of monocytes by nucleofection with HIV-1 proviral DNA could not produce infectious HIV-1. The lack of Tat transactivation of the LTR promoter correlated with the impaired HIV-1 gene expression in monocytes. Interestingly, heterokaryons between primary monocytes and a human embryonic kidney cell line restored Tat transactivation of LTR, suggesting that monocytes lack cellular factors required for Tat transactivation. CycT1 protein was undetectable in freshly isolated monocytes and induced in monocyte-differentiated macrophages, while the expression of CDK9 remained constant. Transient expression of CycT1 in undifferentiated monocytes could not rescue Tat transactivation, suggesting that CycT1 is not the only limiting factor of HIV-1 infection in monocytes. Furthermore, monocyte differentiation into macrophages appeared to enhance the phosphorylation of CDK9, which correlated with significantly increased HIV-1 infection in macrophages. Our results provide new insights into HIV-1 infection and regulation in primary monocytes and viral pathogenesis.
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PMID:Transcriptional restriction of human immunodeficiency virus type 1 gene expression in undifferentiated primary monocytes. 1921 71

Contacts between HIV-producing T cells and primary CD4+ T cells may induce the uptake of HIV by target cells that are endocytosed into trypsin-resistant compartments. We have now compared the mechanism of virus transmission from T cell-to-T cell versus infected dendritic cells (DCs)-to-T cell. In cocultures of HIV-1-infected DCs with primary CD4+ T cells, virus transmission to the target cells was resistant to trypsin treatment and could only be prevented by the anti-SUgp120 antibody IgGb12 but not by TAK-779, C34 or AZT. Importantly, upon stimulation of purified HIV-1-loaded CD4+ T cells with PHA/IL-2, cells became productively infected as measured by intracellular CAp24 staining and antigen determination in the cell supernatant. These results suggest that the viral endocytic transfer may represent a escape mechanism in the presence of drugs targeting HIV-1 entry or the host immune system.
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PMID:HIV endocytosis after dendritic cell to T cell viral transfer leads to productive virus infection. 1950 Dec 62

The HIV-1 transactivator of transcription (Tat) is a protein essential for virus replication. Tat is an intrinsically disordered RNA-binding protein that, in cooperation with host cell factors cyclin T1 and cyclin-dependent kinase 9, regulates transcription at the level of elongation. Tat also interacts with numerous other intracellular and extracellular proteins, and is implicated in a number of pathogenic processes. The physico-chemical properties of Tat make it a particularly challenging target for structural studies: Tat contains seven Cys residues, six of which are essential for transactivation, and is highly susceptible to oxidative cross-linking and aggregation. In addition, a basic segment (residues 48-57) gives the protein a high net positive charge of +12 at pH 7, endowing it with a high affinity for anionic polymers and surfaces. In order to study the structure of Tat, both alone and in complex with partner molecules, we have developed a system for the bacterial expression and purification of 6xHistidine-tagged and isotopically enriched (in N15 and C13) recombinant HIV-1 Tat(1-72) (BH10 isolate) that yields large amounts of protein. These preparations have facilitated the assignment of 95% of the backbone NMR resonances. Analysis by mass spectrometry and NMR demonstrate that the cysteine-rich Tat protein is unambiguously reduced, monomeric, and unfolded in aqueous solution at pH 4.
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PMID:High yield expression and purification of HIV-1 Tat1-72 for structural studies. 1994 2

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