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

Acute HIV-1 infection of H9 and C8166 cultures has been shown to be suppressed by certain flavonoids, and evidence for inhibition of HIV-1 protease, integrase, and reverse transcriptase by flavonoids also exists. The present aim was to determine whether flavonoids inhibit HIV-1 activation in models of latent infection. By screening flavonoids from six different classes, three structurally related compounds (chrysin, acacetin, and apigenin) were identified that inhibited HIV expression in TNF-alpha-treated OM-10.1 cultures. The three compounds had favorable potencies against HIV activation in relation to their growth inhibitory effects (therapeutic index 5-10). Chrysin also inhibited HIV expression in response to PMA in OM-10.1 cells, in ACH-2 cells stimulated with either TNF-alpha or PMA, and in 8E5 cultures. Furthermore, return to viral latency in OM-10.1 cells previously exposed to TNF-alpha occurred over a shorter time interval when chrysin was added. The inhibition of HIV activation was not dependent on preincubation with flavonoids relative to TNF, and was characterized by a lack of HIV RNA accumulation by Northern analysis. Gel-shift experiments revealed that NF-kappa B activation after TNF-alpha treatment was not inhibited by these agents, suggesting that some other critical factor(s) needed for viral transcription was being affected. These findings indicate that flavonoids inhibit HIV-1 activation via a novel mechanism, and that these agents are potential candidates for therapeutic strategies aimed at maintaining a cellular state of HIV-1 latency.
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PMID:Inhibition of HIV activation in latently infected cells by flavonoid compounds. 882 17

Five classic DNA minor groove-binding drugs and a series of bis-linked lexitropsins based on netropsin and distamycin have been screened for their effectiveness in inhibiting transcription by HIV-1 reverse transcriptase (RT) on a poly(rA).oligo(dT) template-primer (TP). The two most effective drugs, 3,5 m-pyridyl-linked bisdistamycin (MPyr) and trans-vinyl-linked bisdistamycin (TVin), show (1) enhanced inhibition in reactions initiated with pre-incubated enzyme template-primer (ETP) and (2) reduced affinity for a "free" TP analog, when compared with the parent drug distamycin. All three drugs lack the ability to inhibit processive incorporation of nucleotide, suggesting drug intervention instead at initiation or termination of processive cycles. The two bis-linked drugs exhibit different kinetic behavior with reverse transcriptase's two substrates: template-primer and nucleotide. When primer is the variable substrate, TVin is partially noncompetitive and MPyr is dead-end competitive (Ki = 6.5 microM). With nucleotide as substrate, TVin is noncompetitive at low drug concentrations and MPyr is uncompetitive. Gel band mobility shift assays with MPyr indicate that the drug inhibits via entrapment of TP on the enzyme rather than displacement of TP from the enzyme surface. The conformation of nucleic acid is most likely altered upon MPyr binding, enhancing the induced fit of enzyme to hybrid duplex. The relevance of this novel mode of inhibition is considered in relation to enzyme association/dissociation with TP that occurs prior to (-)-DNA strand transfer, and to the structural implications of an enzyme-bound hybrid RNA/DNA nucleic acid.
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PMID:Linked lexitropsins and the in vitro inhibition of HIV-1 reverse transcriptase RNA-directed DNA polymerization: a novel induced-fit of 3,5 m-pyridyl bisdistamycin to enzyme-associated template-primer. 895 92

The presence of HIV-1 DNA sequence variants of pediatric AIDS patients was investigated in a two-stage polymerase chain reaction (PCR) using nested primers for the first and second (V1-V2) hypervariable regions of the proviral envelope (gp 120) gene (env1). Gel electrophoresis analysis yielded amplified DNA bands which exhibited length variations which were characteristic for each child. The PCR products were cloned and the resulting clones demonstrated inserts of different lengths in a patient and between patients. Analysis of five clones from two different patients at the level of DNA sequencing indicates an extreme heterogeneity in the V1-V2 region. DNA maximum similarity between all of the isolated clones ranged between 69 to 96%. Comparison between DNA sequences of the isolated clones and HIV-1 strains of other parts of the world was also performed. The highest percentage of similarity that was found with known HIV variants included the following strains: HIVADA, HIVJFL, HIVSW42, HIVSWB83, HIVTRA2, HIVWMJ22. The sequences also showed a high degree of similarity to the clade B virus HIVSF162. The analyzed HIV-1 sequences demonstrated the expected high degree of variation in the V1-V2 region of the envelope gene and in some cases that the variation between isolates from the same patient may exceed the variation between the individual clones and the reference HIV-1 strains.
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PMID:Sequence analysis of the V1-V2 hypervariable region of the HIV-1 envelope gene from pediatric patients. 899 87

Antisense oligonucleotides (ODNs) overlapping the stem-loop structure of the trans-activating responsive (TAR) element at the 5' end of HIV-1 and HIV-2 viral RNAs were tested for their inhibitory effect on cDNA synthesis by HIV-1 and HIV-2 reverse transcriptases (RT). Inhibition of reverse transcription is sequence-specific and enhanced by the presence of the RT-associated RNase H activity. The degree of inhibition obtained with the anti-TAR antisense is significantly higher than with other HIV-1 targeted antisense ODNs used before [1]. Gel retardation showed a stable specific complex between the 16- and 25-mer anti-TAR HIV-1 selected ODNs and the target region. No complex was observed with a non-inhibitor 22-mer anti-TAR ODN and with the corresponding control sequences. Targeting of the first stem-loop in the 5' region of HIV-2 RNA by anti-TAR ODNs inhibited very strongly reverse transcription by HIV-2 RT. The structure of the antisense and the target sequence affect annealing efficiency and hence the degree of inhibition of reverse transcription.
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PMID:Specific inhibition of in vitro reverse transcription using antisense oligonucleotides targeted to the TAR regions of HIV-1 and HIV-2. 913 May 87

During human immunodeficiency virus type 1 (HIV-1) virion assembly, cleavage of the Gag precursor by the viral protease results in the transient appearance of a nucleocapsid-p1-p6 intermediate product designated p15NC. Utilizing the p15NC precursor protein produced with an in vitro transcription-translation system or purified after expression in Escherichia coli, we have demonstrated that RNA is required for efficient cleavage of HIV p15NC. Gel mobility shift and nitrocellulose filter binding experiments indicate that purified p15NC protein specifically binds its corresponding mRNA with an estimated Kd of 1.5 nM. Binding was not affected by the presence or absence of zinc or EDTA. Moreover, mutagenesis of the cysteine residues within either of the two Cys-His arrays had no effect on RNA binding or on RNA-dependent cleavage by the viral protease. In contrast, decreased binding of RNA and diminished susceptibility to cleavage in vitro were observed with p15NC-containing mutations in one or more residues within the triplet of basic amino acids present in the region between the two zinc fingers. In addition, we found that 21- to 24-base DNA and RNA oligonucleotides of a particular sequence and secondary structure could substitute for p15 RNA in the enhancement of p15NC cleavage. Virus particles carrying a mutation in the triplet of NC basic residues (P3BE) show delayed cleavage of p15NC and a defect in core formation despite the eventual appearance of fully processed virion protein. These results define determinants of the p15NC-RNA interaction that lead to enhanced protease-mediated cleavage and demonstrate the importance of the triplet of basic residues in formation of the virus core.
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PMID:Determinants of the human immunodeficiency virus type 1 p15NC-RNA interaction that affect enhanced cleavage by the viral protease. 922 58

Syntheses for the new photosensitizers HOSiPcOSi(CH3)2(CH2)3N(CH1)1 or 3(CH3)2, Pc 34 and Pc 25, have been developed and the order of activity of these photosensitizers and the previously reported photosensitizer Pc 4, HOSiPcOSi(CH3)2(CH2)3N(CH3)2, in the dark and with broad-band red light toward Plasmodium falciparum in red blood cell (RBC) suspensions has been studied. The order of activity has been found to be Pc 4 > Pc 34 > Pc 25. Thus, the activity of the photosensitizers under both sets of conditions is inversely proportional to the length of their terminal amino alkyl chains. The 50% inhibition dye concentration (IC50) in the dark for the parasites in RBC suspension with Pc 4 is 24 nM and the dye concentration and light fluence that yield > or = 3 log10 of parasite inactivation with Pc 4 are 2 microM and 3 J/cm2, respectively. The synthesis of DNA and proteins by the parasites in culture was strongly inhibited by Pc 4 in the dark while parasite lactate dehydrogenase (pLDH) activity was unaffected. With Pc 4 and light, DNA and protein synthesis of the parasites in culture was strongly inhibited, pLDH activity of the parasites was moderately inhibited and ribosome density of the parasite cells was reduced. Gel electrophoresis studies showed that synthesis of all parasite proteins was inhibited to a similar extent. These results suggest that Pc 4 both in the dark and with light inactivates the cells by disturbing their machinery for the synthesis of not just one but a whole series of proteins. It is concluded that Pc 4 and light may be able to serve as a practical sterilization combination not only for HIV and other viruses but also for malaria parasites in RBC concentrates, and that Pc 4 by itself may have potential as a chemotherapeutic agent toward malaria.
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PMID:Structure-activity and mechanism studies on silicon phthalocyanines with Plasmodium falciparum in the dark and under red light. 927 50

The 5'-upstream region of the rat phospholipase C-beta 3 gene (PLC-beta 3) has been cloned and characterized. Sequence analysis of the 5'-upstream region showed that it contains a GC-rich region (-166 to +1: 79%) and multiple binding sites for the transcription factors Sp1, AP-1 and AP-2, but does not contain a canonical TATA box. Primer extension analysis of total RNA isolated from rat glial cell C6Bul revealed that single transcription start point (tsp) is located at an initiator (Inr) element similar to that found in the HIV promoter. Gel mobility shift and competitive mobility shift assays indicated that this Inr element forms a DNA-protein complex with the HIV Inr-binding protein, LBP-1/CP2 or a homologue. In order to localize functional elements of the 5'-upstream region of the rat PLC-beta 3 gene, 5'-deletion fragments were cloned into a chloramphenicol acetyltransferase (CAT) reporter vector. Transient transfection analyses of the 5'-deletion mutants identified a crucial promoter element located at -128 to -14. Supershift mobility assays, site-directed mutagenesis and DNase I footprints indicated that Sp1 binds to three GC boxes within the sequence between -128 and -14 of the PLC-beta 3 promoter. Transient transfection analyses of promoter constructs containing site-specific mutation(s) of these three GC boxes demonstrated that two GC boxes, located proximal to the tsp, are important elements for normal promoter activity.
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PMID:The 5'-upstream region of the rat phospholipase C-beta 3 gene contains two critical Sp1 sites and an HIV Inr-like element. 933 46

The NF-kappaB/Rel family of transcription factors is one of the main targets of cytokines and other agents that induce HIV-1 gene expression. Some of these extracellular stimuli arrest cells in the G1 phase of the mitotic division cycle and modulate the activity of the tumor suppressor protein Rb and its partner E2F-1. Earlier studies indicated that E2F-1, a transcription factor that stimulates expression of S-phase-specific genes, is able to repress transcription directed by the human immunodeficiency virus (HIV-1) type-1 promoter in a variety of cells, including those of glial and lymphocytic origin. Here, we demonstrate that E2F-1 may regulate the activity of the HIV-1 long terminal repeat through its ability to bind sequences in the NF-kappaB enhancer region and to interact with the NF-kappaB subunit, p50. Gel retardation and methylation interference assays show that E2F-1 is able to bind specifically to a site embedded within the two NF-kappaB elements. Gel retardation/immunoblot analysis using purified E2F-1 and p50 homodimers reveals the presence of complexes containing both proteins. Affinity chromatography and co-immunoprecipitation assays provide evidence for direct interaction of E2F-1 and p50 in the absence of their DNA target sequences. In vitro transcription assay demonstrates that E2F-1 represses NF-kappaB mediated transcription in a cell-free system. Functional studies in Jurkat T lymphocytic cells point to the importance of both the E2F and NF-kappaB binding sites in E2F-1 mediated repression of HIV-1 promoter, in vivo. The results of this study suggest that NF-kappaB activity may be regulated by its interaction with the cell cycle regulatory protein, E2F-1.
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PMID:Interaction between cell cycle regulator, E2F-1, and NF-kappaB mediates repression of HIV-1 gene transcription. 936 6

Heparins/heparan sulfates modulate the function of proteins and cell membranes in numerous biological systems including normal and disease processes in humans. Heparin has been used for many years as an anticoagulant, and anticoagulant heparin-mimetics were developed several decades ago by chemical sulfation of non-mammalian polysaccharides, e.g., an antithrombotic sulfated xylan. This pharmaceutical, which comprises a mixture of sulfated oligoxylans, also mimics most other biological actions of natural heparins in vitro, including inhibition of the human immunodeficiency virus, but the molecular basis for these actions has been unclear. Here, numerous Components of the sulfated oligoxylan mixture were isolated and when bioassayed in the case of anti-HIV-1 infectivity revealed that a structural specificity underlines the capacity of sulfated xylan to inhibit HIV-1, rather than a non-specific mechanism. Components were isolated by chromatographic fractionation through Bio-Gel P10 in 0.5 M ammonium bicarbonate. This fractionation revealed an elution range associated with apparent molecular weights of approximately 22000 to <1500 relative to standard heparin and heparan sulfates and newly prepared sulfated oligosaccharide standards. Components were characterized by metachromatic absorption spectroscopy, ultracentrifugation, GlcA analysis, and potency against HIV-1 infectivity, both in the tetrazolium cytotoxicity assay and in syncytium-forming assays, in CD4-lymphocytes. Structural specificity was indicated by the differential potencies exhibited by the Components: Highest activity (cytotoxicity) was exhibited by Components in the chromatographic region > or = approximately 5500 in mass (50% effective (inhibitory) concentration = 0.5-0.7 microg ml(-1) in the first fractionation series, and 0.1-0.5 microg ml(-1) in a second series). The potency declined sharply below approximately 5400 in mass, but with an exception; a second structure exhibiting relatively high potency eluted among low-mass oligosaccharides which had an average size of approximately a nonomer. Components displayed differential potencies also against the syncytium-forming infectivity of HIV-1. The high potency against syncytium-formation was retained by Components down to a minimum size of about 4500 in mass, smaller than the > or = approximately 5400 required above. One in ten of the beta1,4-linked xyloses in the native xylan are substituted with a monomeric alpha1,2 DGlcA branch. We have speculated that pharmaceutical actions of sulfated xylan might be related to structures involving the alpha-D linked substituents and this was examined using a space-filling model of a sulfated octaxylan and by analyses of Components for GlcA content. Understanding structure/function relations in the heparin-like actions of these agents would be of general significance for the careful examination of their potential clinical usefulness in many human processes modulated by heparins, including AIDS.
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PMID:Structure-function relations of heparin-mimetic sulfated xylan oligosaccharides: inhibition of human immunodeficiency virus-1 infectivity in vitro. 988 76

The previously described HIV-1 directed hammerhead ribozyme 2as-Rz12 can form with its target RNA 2s helices I and III of 128 and 278 base pairs (bp). A series of derivatives was made in which helix III was truncated to 8, 5, 4, 3, and 2 nucleotides (nt). These asymmetric hammerhead ribozymes were tested for in vitro cleavage and for inhibition of HIV-1 replication in human cells. Truncation of helix III to 8 bp did not affect the in vitro cleavage potential of the parental catalytic antisense RNA 2as-Rz12. Further truncation of helix III led to decreased cleavage rates, with no measurable cleavage activity for the 2 bp construct. All catalytically active constructs showed complex cleavage kinetics. Three kinetic subpopulations of ribozyme-substrate complexes could be discriminated that were cleaved with fast or slow rates or not at all. Gel purification of preformed ribozyme-substrate complexes led to a significant increase in cleavage rates. However, the complex cleavage pattern remained. In mammalian cells, the helix III-truncated constructs showed the same but no increased inhibitory effect of the comparable antisense RNA on HIV-1 replication.
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PMID:Length variation of helix III in a hammerhead ribozyme and its influence on cleavage activity. 1019 86


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