Luke A. Pallansch scite author profile

T30177, an oligonucleotide composed of only deoxyguanosine and thymidine, is 17 nucleotides in length and contains single phosphorothioate internucleoside linkages at its 5 and 3 ends for stability. This oligonucleotide does not share significant primary sequence homology with or possess any complementary (antisense) sequence motifs to the human immunodeficiency virus type 1 (HIV-1) genome. T30177 inhibited replication of multiple laboratory strains of HIV-1 in human T-cell lines, peripheral blood lymphocytes, and macrophages. T30177 was also found to be capable of inhibiting multiple clinical isolates of HIV-1 and preventing the cytopathic effect of HIV-1 in primary CD4 ؉ T lymphocytes. In assays with human peripheral blood lymphocytes there was no observable toxicity associated with T30177 at the highest concentration tested (100 M), while the median inhibitory concentration was determined to be in the range of 0.1 to 1.0 M for the clinical isolates tested, resulting in a high therapeutic index for this drug. In temporal studies, the kinetics of addition of T30177 to infected cell cultures indicated that, like the known viral adsorption blocking agents dextran sulfate and Chicago sky blue, T30177 needed to be added to cells during or very soon after viral infection. However, analysis of nucleic acids extracted at 12 h postinfection from cells treated with T30177 at the time of virus infection established the presence of unintegrated viral cDNA, including circular proviral DNA, in the treated cells. In vitro analysis of viral enzymes revealed that T30177 was a potent inhibitor of HIV-1 integrase, reducing enzymatic activity by 50% at concentrations in the range of 0.050 to 0.09 M. T30177 was also able to inhibit viral reverse transcriptase activity; however, the 50% inhibitory value obtained was in the range of 1 to 10 M, depending on the template used in the enzymatic assay. No observable inhibition of viral protease was detected at the highest concentration of T30177 used (10 M). In experiments in which T30177 was removed from infected cell cultures at 4 days post-HIV-1 infection, total suppression of virus production was observed for more than 27 days. PCR analysis of DNA extracted from cells treated in this fashion was unable to detect the presence of viral DNA 11 days after removal of the drug from the infected cell cultures. The ability of T30177 to inhibit both laboratory and clinical isolates of HIV-1 and the experimental data which suggest that T30177 represents a novel class of integrase inhibitors indicate that this compound is a viable candidate for evaluation as a therapeutic agent against HIV-1 in humans.One relatively new approach used in the development of antiviral therapeutics for human immunodeficiency virus type 1 (HIV-1) is the use of oligonucleotides designed as antisense agents (24,26,31). While much effort is being spent on rationally designed oligonucleotides such as antisense agents, there have also been recent findings of multiple alternative mechanisms by which oligonucleotides can i...

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Inhibition of Human Immunodeficiency Virus Type 1 Replication in Human Cells by Debio-025, a Novel Cyclophilin Binding Agent

Ptak

Gallay

Jochmans³

et al. 2008

Antimicrob Agents Chemother

110

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Structure-activity and cross-resistance evaluations of a series of human immunodeficiency virus type-1-specific compounds related to oxathiin carboxanilide

Buckheit

Kinjerski

Fliakas-Boltz

et al. 1995

Antimicrob Agents Chemother

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A series of compounds related to the nonnucleoside reverse transcriptase (RT) inhibitor (NNRTI) oxathiin carboxanilide (UC84) were evaluated for activity against the human immunodeficiency virus (HIV) to determine structural requirements for anti-HIV activity. Twenty-seven compounds representative of the more than 400 Uniroyal Chemical Company (UC) compounds were evaluated for structure-activity relationships. Several of the compounds evaluated were highly active, with 50% effective concentrations in the nanomolar range and therapeutic indices of >1,000. Highly synergistic anti-HIV activity was observed for each compound when used in combination with 3-azido-3-deoxythymidine; additive to slightly synergistic interactions were observed with the compounds used in combination with dideoxycytidine. In combination with the NNRTI costatolide, only UC38 synergistically inhibited HIV type 1. Residues in the RT which, when mutated, impart resistance to the carboxanilide compounds were defined by evaluation of the UC compounds against a panel of NNRTI-resistant virus isolates selected in cell culture, against virus variants with site-directed mutations, and against RTs containing defined single amino acid changes. The mutations included changes in RT amino acids 100, 101, 103, 106, 108, and 181. The results with isolates selected in cell culture indicate that the carboxanilide compounds interact with the RT at two vulnerable sites, selecting UC-resistant virus isolates with the Y-to-C mutation at position 181 (Y181C) or the L100I substitution. A resistant virus isolate containing both Y181C and K101E amino acid changes and another with both Y181C and V106A mutations were isolated. In combination with calanolide A, an NNRTI which retains activity against virus isolates with the single Y181C mutation, UC10 rapidly selected a virus isolate with the K103N mutation. The merits of selecting potential candidate anti-HIV agents to be used in rational combination drug design as part of an armamentarium of highly active anti-HIV compounds are discussed.

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Naturally Occurring Capsid Substitutions Render HIV-1 Cyclophilin A Independent in Human Cells and TRIM-cyclophilin-resistant in Owl Monkey Cells

Chatterji

Bobardt

Stanfield

et al. 2005

Journal of Biological Chemistry

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In Vitro Preclinical Testing of Nonoxynol-9 as Potential Anti-Human Immunodeficiency Virus Microbicide: a Retrospective Analysis of Results from Five Laboratories

Beer

Doncel

Krebs

et al. 2006

Antimicrob Agents Chemother

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The first product to be clinically evaluated as a microbicide contained the nonionic surfactant nonoxynol-9 (nonylphenoxypolyethoxyethanol; N-9). Many laboratories have used N-9 as a control compound for microbicide assays. However, no published comparisons of the results among laboratories or attempts to establish standardized protocols for preclinical testing of microbicides have been performed. In this study, we compared results from 127 N-9 toxicity and 72 efficacy assays that were generated in five different laboratories over the last six years and were performed with 14 different cell lines or tissues. Intra-assay reproducibility was measured at two-, three-, and fivefold differences using standard deviations. Interassay reproducibility was assessed using general linear models, and interaction between variables was studied using step-wise regression. The intra-assay reproducibility within the same N-9 concentration, cell type, assay duration, and laboratory was consistent at the twofold level of standard deviations. For interassay reproducibility, cell line, duration of assay, and N-9 concentration were all significant sources of variability (P < 0.01). Half-maximal toxicity concentrations for N-9 were similar between laboratories for assays of similar exposure durations, but these similarities decreased with lower test concentrations of N-9. Results for both long (>24 h) and short (<2 h) exposures of cells to N-9 showed variability, while assays with 4 to 8 h of N-9 exposure gave results that were not significantly different. This is the first analysis to compare preclinical N-9 toxicity levels that were obtained by different laboratories using various protocols. This comparative work can be used to develop standardized microbicide testing protocols that will help advance potential microbicides to clinical trials.

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Luke A. Pallansch

T30177, an oligonucleotide stabilized by an intramolecular guanosine octet, is a potent inhibitor of laboratory strains and clinical isolates of human immunodeficiency virus type 1

Inhibition of Human Immunodeficiency Virus Type 1 Replication in Human Cells by Debio-025, a Novel Cyclophilin Binding Agent

Structure-activity and cross-resistance evaluations of a series of human immunodeficiency virus type-1-specific compounds related to oxathiin carboxanilide

Naturally Occurring Capsid Substitutions Render HIV-1 Cyclophilin A Independent in Human Cells and TRIM-cyclophilin-resistant in Owl Monkey Cells

In Vitro Preclinical Testing of Nonoxynol-9 as Potential Anti-Human Immunodeficiency Virus Microbicide: a Retrospective Analysis of Results from Five Laboratories

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