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1. Vaginal Microbicide Gel for Delivery of IQP-0528, a Pyrimidinedione Analog with a Dual Mechanism of Action against HIV-1

Author

Robert W. Buckheit, Patrick F. Kiser, Lisa C. Rohan, Adam P. Simmons, Karen M. Watson, Shweta R. Ugaonkar, Charlene S. Dezzutti, and Alamelu Mahalingam

Subjects
Pharmacology, Biodistribution, Anti-HIV Agents, Swine, Chemistry, Vaginal microbicide, Pyrimidinones, In Vitro Techniques, Antiviral Agents, Dosage form, Microbicides for sexually transmitted diseases, chemistry.chemical_compound, Infectious Diseases, In vivo, Microbicide, Vagina, HIV-1, Vaginal Creams, Foams, and Jellies, Pyrimidinedione, Animals, Humans, Female, Pharmacology (medical), Ex vivo
Abstract

Pyrimidinediones, a novel class of compounds, have previously been shown to possess antiviral activity at nanomolar concentrations. One member of this class of compounds, IQP-0528, was selected as the lead molecule for formulation development owing to its stability at physiologically relevant conditions, wide therapeutic window, and antiviral activity in the nanomolar range. Here, we report the development of two vaginal gels—3.0% hydroxyethyl cellulose (HEC) formulation and a 0.65% Carbopol formulation—for the sustained delivery of IQP-0528. Stability studies under accelerated conditions confirmed the chemical stability of IQP-0528 and mechanical stability of the gel formulation for 3 months. In vitro release studies revealed that diffusion-controlled release of IQP-0528 occurred over 6 h, with an initial lag time of approximately 1 h. Based on the drug release profile, the 3.0% HEC gel was selected as the lead formulation for safety and activity evaluations. The in vitro and ex vivo safety evaluations showed no significant loss in cell viability or significant inflammatory response after treatment with a 3.0% HEC gel containing 0.25% IQP-0528. In an in vitro HIV-1 entry inhibition assay, the lead formulation showed an 50% effective concentration of 0.14 g/ml for gel in culture media, which corresponds to 0.001 M IQP-0528. The antiviral activity was further confirmed by using polarized cervical explants, in which the formulation showed complete protection against HIV infection. In summary, these results are encouraging and warrant further evaluation of IQP-0528 gel formulations in in vivo models, as well as the development of alternative formulations for the delivery of IQP-0528 as a microbicide. The need for prophylactic strategies to prevent heterosexual transmission of human immunodeficiency virus (HIV) was recognized more than 20 years ago (30). Since then researchers from various fields have actively been developing technologies to combat the rapid spread of HIV. These strategies include pre-exposure prophylactics (28, 41) and microbicides (14, 31) designed to topically deliver single or combination antiviral agents. Currently, microbicide delivery systems under development include gels, rings, films, and suppositories. Of these systems, vaginal gels remain the preferred choice for the first line of microbicide product development. This can be attributed to the ease of vaginal gel development, the extensive work reported in the literature using this dosage form, and the existence of several vaginal semisolid products in the market. Microbicide administration via the vaginal route is advantageous since it allows local, noninvasive delivery of antiviral agents and enhanced biodistribution of drugs facilitated by the rich underlying blood supply (37, 40). Furthermore, vaginal gels can be self-administered, which is critical in the development of woman-controlled preventive strategies such as vaginal microbicides (37).

Published
2011
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2. Inhibition of Human Immunodeficiency Virus Type 1 by Triciribine Involves the Accessory Protein Nef

Author

John C. Drach, Karen M. Watson, Tracy L. Hartman, Leroy B. Townsend, Brian G. Gentry, Roger G. Ptak, M. Clayton Osterling, and Robert W. Buckheit

Subjects
Anti-HIV Agents, Microbial Sensitivity Tests, In Vitro Techniques, Biology, Virus Replication, medicine.disease_cause, Antiviral Agents, Virus, Cell Line, Drug Resistance, Viral, medicine, Humans, Point Mutation, Pharmacology (medical), nef Gene Products, Human Immunodeficiency Virus, Gene, Pharmacology, Virus Assembly, Point mutation, virus diseases, Simian immunodeficiency virus, Provirus, Virology, HIV Reverse Transcriptase, Reverse transcriptase, Genes, nef, Multiple drug resistance, Infectious Diseases, Viral replication, HIV-2, HIV-1, Simian Immunodeficiency Virus, Ribonucleosides
Abstract

Triciribine (TCN) is a tricyclic nucleoside that inhibits human immunodeficiency virus type 1 (HIV-1) replication by a unique mechanism not involving the inhibition of enzymes directly involved in viral replication. This activity requires the phosphorylation of TCN to its 5′ monophosphate by intracellular adenosine kinase. New testing with a panel of HIV and simian immunodeficiency virus isolates, including low-passage-number clinical isolates and selected subgroups of HIV-1, multidrug resistant HIV-1, and HIV-2, has demonstrated that TCN has broad antiretroviral activity. It was active in cell lines chronically infected with HIV-1 in which the provirus was integrated into chromosomal DNA, thereby indicating that TCN inhibits a late process in virus replication. The selection of TCN-resistant HIV-1 isolates resulted in up to a 750-fold increase in the level of resistance to the drug. DNA sequence analysis of highly resistant isolate HIV-1H10found five point mutations in the HIV-1 genenef, resulting in five different amino acid changes. DNA sequencing of the other TCN-resistant isolates identified at least one and up to three of the same mutations observed in isolate HIV-1H10. Transfer of the mutations from TCN-resistant isolate HIV-1H10to wild-type virus and subsequent viral growth experiments with increasing concentrations of TCN demonstrated resistance to the drug. We conclude that TCN is a late-phase inhibitor of HIV-1 replication and that mutations innefare necessary and sufficient for TCN resistance.

Published
2010
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3. Identification of Novel Human Immunodeficiency Virus Type 1-Inhibitory Peptides Based on the Antimicrobial Peptide Database

Author

Robert W. Buckheit, Alan Peterkofsky, Guangshun Wang, and Karen M. Watson

Subjects
Anti-HIV Agents, Amphibian Proteins, Molecular Sequence Data, Peptide, Microbial Sensitivity Tests, Biology, computer.software_genre, Antiviral Agents, Structure-Activity Relationship, Animals, Humans, Structure–activity relationship, natural sciences, Pharmacology (medical), Amino Acid Sequence, Databases, Protein, Peptide sequence, Pharmacology, chemistry.chemical_classification, Antiinfective agent, Dermaseptin, Database, Antimicrobial, Amino acid, Infectious Diseases, Biochemistry, chemistry, Drug Design, HIV-1, computer, Antimicrobial Cationic Peptides
Abstract

To identify novel anti-HIV-1 peptides based on the antimicrobial peptide database (APD; http://aps.unmc.edu/AP/main.php ), we have screened 30 candidates and found 11 peptides with 50% effective concentrations (EC 50 ) of 1, increases in the Arg contents of amphibian maximin H5 and dermaseptin S9 peptides and the database-derived GLK-19 peptide improved the TIs. These examples demonstrate that the APD is a rich resource and a useful tool for developing novel HIV-1-inhibitory peptides.

Published
2010
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4. Development of topical microbicides to prevent the sexual transmission of HIV

Author

Karen M. Watson, Robert W. Buckheit, Kathleen M. Morrow, and Anthony S. Ham

Subjects
Male, Sexually transmitted disease, medicine.medical_specialty, Sexual transmission, Administration, Topical, Population, HIV Infections, Article, law.invention, Anti-Infective Agents, Acquired immunodeficiency syndrome (AIDS), Condom, law, Virology, Microbicide, Disease Transmission, Infectious, medicine, Humans, Intensive care medicine, education, Pharmacology, education.field_of_study, business.industry, Sexually Transmitted Diseases, Viral, medicine.disease, Microbicides for sexually transmitted diseases, Female, business
Abstract

Women comprise almost 50% of the population of people living with HIV and the majority of these women contracted the virus through sexual transmission in monogamous relationships in the developing world. In these environments, where women are not empowered to protect themselves through the negotiation of condom use, effective means of preventing HIV transmission are urgently needed. In the absence of an approved and effective vaccine, microbicides have become the strategy of choice to provide women with the ability to prevent HIV transmission from their infected partners. Topical microbicides are agents specifically developed and formulated for use in either the vaginal or rectal environment that prevent infection by sexually transmitted infectious organisms, including pathogenic viruses, bacteria and fungi. Although a microbicidal product will have many of the same properties as other anti-infective agents and would be similarly developed through human clinical trials, microbicide development bears its own challenges related to formulation and delivery and the unique environment in which the product must act, as well as the requirement to develop a product that is acceptable to the user. Herein, perspectives based on preclinical and clinical microbicide development experience, which have led to an evolving microbicide development algorithm, will be discussed. This article forms part of a special issue of Antiviral Research marking the 25th anniversary of antiretroviral drug discovery and development, Vol 85, issue 1, 2010”.

Published
2010
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5. Comparative Evaluation of Virus Transmission Inhibition by Dual-Acting Pyrimidinedione Microbicides Using the Microbicide Transmission and Sterilization Assay

Author

Karen M. Watson, Christa E. Buckheit, and Robert W. Buckheit

Subjects
Anti-HIV Agents, Drug Evaluation, Preclinical, HIV Infections, Pyrimidinones, Biology, Antiviral Agents, Virus, Cell Line, Microbiology, chemistry.chemical_compound, Immune system, Anti-Infective Agents, Cell Line, Tumor, Microbicide, Pyrimidinedione, Humans, Pharmacology (medical), Pharmacology, In vitro toxicology, HIV, Virology, Microbicides for sexually transmitted diseases, Infectious Diseases, chemistry, Cell culture
Abstract

In the absence of a fully effective human immunodeficiency virus (HIV) vaccine, topical microbicides represent an important strategy for preventing the transmission of HIV through sexual intercourse, the predominant mode of HIV transmission worldwide. Although a comprehensive understanding of HIV transmission has not yet emerged in the microbicide field, it is likely the result of rapid infection of monocyte-derived cells in the vaginal mucosa by CCR5-tropic viruses. Inhibition of HIV transmission requires agents that prevent entry, fusion, reverse transcription, or other preintegrative replication events or agents which directly inactivate HIV or modulate the target cells to render them uninfectible. In vitro assays typically used to evaluate the ability of a microbicide to prevent virus transmission use epithelial or human osteosarcoma-derived cells or immune cells more relevant to the development of anti-HIV therapeutic agents and quantify virus production at short time intervals following infection. We have developed a microbicide transmission and sterilization assay (MTSA) to more sensitively and quantitatively evaluate virus transmission in cell culture in the presence of microbicidal compounds. Results obtained with the MTSA demonstrate that the inhibitory capacity of microbicides is often overestimated in short-term transmission inhibition assays, while some compounds yield equivalent inhibitory results, indicating a biological relevance for the MTSA-based evaluations to identify superior potent microbicides. The MTSA defines the concentration of the microbicide required to totally suppress the transmission of virus in cell culture and may thus help define the effective concentration of the microbicide required in a formulated microbicide product.

Published
2008
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6. Development of a Comprehensive Human Immunodeficiency Virus Type 1 Screening Algorithm for Discovery and Preclinical Testing of Topical Microbicides

Author

Gareth Rhys Lewis, Beth A. Snyder, Jeremy R.A. Paull, Brigitte E Sanders-Beer, James E. Cummins, Carol Lackman-Smith, Marie K. Mankowski, Robert W. Buckheit, Roger G. Ptak, Clay Osterling, Karen M. Watson, Albert T. Profy, and Katherine Luckenbaugh

Subjects
Receptors, CXCR4, Anti-HIV Agents, Polymers, Drug Evaluation, Preclinical, CCR5 receptor antagonist, Biology, Antiviral Agents, Virus, Cell Line, Inhibitory Concentration 50, chemistry.chemical_compound, Naphthalenesulfonates, Microbicide, Humans, Anilides, Pharmacology (medical), Furans, Cytotoxicity, Pharmacology, Hydrogen-Ion Concentration, biology.organism_classification, Amides, Virology, In vitro, Quaternary Ammonium Compounds, Thioamides, Microbicides for sexually transmitted diseases, Infectious Diseases, chemistry, CCR5 Receptor Antagonists, CD4 Antigens, Lentivirus, Anti-Infective Agents, Local, HIV-1, Growth inhibition, Algorithms, HeLa Cells
Abstract

Topical microbicides are self-administered, prophylactic products for protection against sexually transmitted pathogens. A large number of compounds with known anti-human immunodeficiency virus type 1 (HIV-1) inhibitory activity have been proposed as candidate topical microbicides. To identify potential leads, an in vitro screening algorithm was developed to evaluate candidate microbicides in assays that assess inhibition of cell-associated and cell-free HIV-1 transmission, entry, and fusion. The algorithm advances compounds by evaluation in a series of defined assays that generate measurements of relative antiviral potency to determine advancement or failure. Initial testing consists of a dual determination of inhibitory activity in the CD4-dependent CCR5-tropic cell-associated transmission inhibition assay and in the CD4/CCR5-mediated HIV-1 entry assay. The activity is confirmed by repeat testing, and identified actives are advanced to secondary screens to determine their effect on transmission of CXCR4-tropic viruses in the presence or absence of CD4 and their ability to inhibit CXCR4- and CCR5-tropic envelope-mediated cell-to-cell fusion. In addition, confirmed active compounds are also evaluated in the presence of human seminal plasma, in assays incorporating a pH 4 to 7 transition, and for growth inhibition of relevant strains of lactobacilli. Leads may then be advanced for specialized testing, including determinations in human cervical explants and in peripheral blood mononuclear cells against primary HIV subtypes, combination testing with other inhibitors, and additional cytotoxicity assays. PRO 2000 and SPL7013 (the active component of VivaGel), two microbicide products currently being evaluated in human clinical trials, were tested in this in vitro algorithm and were shown to be highly active against CCR5- and CXCR4-tropic HIV-1 infection.

Published
2008
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7. Comparative Evaluation of the Inhibitory Activities of a Series of Pyrimidinedione Congeners That Inhibit Human Immunodeficiency Virus Types 1 and 2

Author

Sun-Gan Chung, Karen M. Watson, Tracy L. Hartman, Robert W. Buckheit, and Eui-Hwan Cho

Subjects
Anti-HIV Agents, Pyridones, Stereochemistry, Microbial Sensitivity Tests, Biology, Antiviral Agents, Virus, Cell Line, Structure-Activity Relationship, chemistry.chemical_compound, Viral entry, medicine, Pyrimidinedione, Humans, Structure–activity relationship, Pharmacology (medical), Pharmacology, Reverse-transcriptase inhibitor, virus diseases, Biological activity, HIV Reverse Transcriptase, Reverse transcriptase, Infectious Diseases, chemistry, HIV-2, HIV-1, Reverse Transcriptase Inhibitors, Linker, HeLa Cells, medicine.drug
Abstract

Seventy-three analogs of SJ-3366 (1-(3-cyclopenten-1-ylmethyl)-5-ethyl-6-(3,5-dimethylbenzoyl)-2,4(1H,3H)-pyrimidinedione) were synthesized and comparatively evaluated for their ability to inhibit the replication of human immunodeficiency virus type 1 (HIV-1) and HIV-2 and for their ability to suppress virus entry and reverse transcription. These studies were performed to identify inhibitors with activity greater than that of the current lead molecule (SJ-3366) and to utilize structure-activity relationships (SAR) to define the chemical features of the pyrimidinedione congeners responsible for their efficacy, toxicity, and dual mechanism of action against HIV. The results of our SAR evaluations have demonstrated that the addition of the homocyclic moiety at the N-1 of the pyrimidinedione results in acquisition of the ability to inhibit virus entry and extends the range of action of the compounds to include HIV-2. In addition, the results demonstrate that analogs with a methyl linker between the homocyclic substitution and the N-1 of the pyrimidinedione had a greater number of highly active molecules than those analogs possessing ethyl linkers. Six molecules were identified with activity equivalent to or greater than that of SJ-3366, and five additional molecules with highly potent inhibition of reverse transcriptase and virus entry and possessing high efficacy against both HIV-1 and HIV-2 were identified. Six molecules exhibited significant inhibition of viruses with the highly problematic nonnucleoside reverse transcriptase inhibitor (NNRTI) resistance engendering amino acid change K103N in the reverse transcriptase. These evaluations indicate that a new class of NNRTIs has been identified and that these NNRTIs possess highly potent inhibition of HIV-1 with an extended range of action, which now includes HIV-2.

Published
2008
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8. In Vitro Preclinical Testing of Nonoxynol-9 as Potential Anti-Human Immunodeficiency Virus Microbicide: a Retrospective Analysis of Results from Five Laboratories

Author

Luke A. Pallansch, Ena Bromley, Mary K. Howett, Brigitte E. Beer, Patricia A. Welsh, Robert W. Buckheit, Brian Wigdahl, Nicola Richardson-Harman, Bradley J. Catalone, Carol Lackman-Smith, Fred C. Krebs, Shendra R. Miller, Gustavo F. Doncel, Clay Osterling, Robin J. Shattock, Karen M. Watson, Jim A. Turpin, James E. Cummins, Charlene S. Dezzutti, Patricia Reichelderfer, Marie K. Mankowski, and Patricia S. Fletcher

Subjects
Anti-HIV Agents, Nonoxynol, Pharmacology, Virus Replication, Antiviral Agents, Cell Line, Anti-Infective Agents, Microbicide, Medicine, Pharmacology (medical), Nonoxynol-9, Retrospective Studies, Reproducibility, business.industry, Vaginal microbicide, Reproducibility of Results, In vitro, Clinical trial, Microbicides for sexually transmitted diseases, Infectious Diseases, Immunology, Toxicity, HIV-1, business, medicine.drug
Abstract

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 (

Published
2006
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9. In Vitroandin VivoCharacterization of a Potential Universal Placebo Designed for Use in Vaginal Microbicide Clinical Trials

Author

Joseph Romano, Timothy J. McCormick, Roger L. Schnaare, Thomas R Moench, Feirong Kang, Jill L. Schwartz, Robert W. Buckheit, Gina Cohl, K. Douville, Gustavo F. Doncel, Karen M. Watson, Mark G. Lewis, and Deborah Tien

Subjects
medicine.medical_specialty, Sexual transmission, Anti-HIV Agents, Immunology, HIV Infections, Pharmacology, Placebo, Placebos, Acquired immunodeficiency syndrome (AIDS), In vivo, Virology, Microbicide, medicine, Animals, Humans, Intensive care medicine, Randomized Controlled Trials as Topic, Viscosity, business.industry, Vaginal microbicide, Hydrogen-Ion Concentration, medicine.disease, First generation, Clinical trial, Infectious Diseases, Vagina, Anti-Infective Agents, Local, Macaca, Female, Rabbits, business
Abstract

The development of vaginal microbicides for the prevention of sexual transmission of HIV is becoming an increasingly important strategy in the battle against the AIDS epidemic. Several first generation microbicide candidates are entering Phase III efficacy trials, and several other candidates are in earlier stages of clinical development. The capacity to make accurate clinical assessments of the safety and efficacy of microbicide formulations is critical. Since microbicide trials will rely on a blinded, randomized, placebo-controlled design, it is important to employ a placebo formulation that does not distort either safety or efficacy assessments. Efficacy of the microbicide would be underestimated if the placebo itself provided a degree of protection. Conversely, a placebo with epithelial toxicity that increased susceptibility would cause an overestimation of microbicide efficacy. To address these issues, a hydroxyethylcellulose (HEC) placebo formulation has been developed and has been adopted for use in clinical evaluations of investigational microbicides as a "universal" placebo. In this report, the chemical and physical properties of this formulation are described, as well as its in vitro and in vivo effects on safety and efficacy. The results show that this "universal" placebo has adequate physical properties, is sufficiently stable as a vaginal gel formulation, and is safe and sufficiently inactive for use in the clinical study of investigational microbicides.

Published
2005
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10. Anti-Human Immunodeficiency Virus Type 1 Activities of Antimicrobial Peptides Derived from Human and Bovine Cathelicidins

Author

Karen M. Watson, Guangshun Wang, and Robert W. Buckheit

Subjects
Anti-HIV Agents, medicine.medical_treatment, Antimicrobial peptides, Human immunodeficiency virus (HIV), HIV Infections, Peptide, Microbial Sensitivity Tests, Biology, medicine.disease_cause, Antiviral Agents, Microbiology, Cathelicidin, Structure-Activity Relationship, Therapeutic index, Cathelicidins, medicine, Animals, Humans, Structure–activity relationship, Pharmacology (medical), Amino Acid Sequence, Peptide sequence, Pharmacology, chemistry.chemical_classification, Virology, Infectious Diseases, chemistry, HIV-1, lipids (amino acids, peptides, and proteins), Cattle, Antimicrobial Cationic Peptides
Abstract

From among 15 human cathelicidin LL-37-derived peptides, FK-13 was identified as the smallest peptide active against human immunodeficiency virus (HIV) and GI-20 had the highest therapeutic index, which was twice that of LL-37. BMAP-18, which is derived from bovine cathelicidin BMAP-27, possessed a therapeutic index similar to that of GI-20. Peptide sequence order, helical structures, and aromatic residues are important in HIV inhibition.

Published
2008
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11. Synthesis of alkenyldiarylmethanes (ADAMs) containing benzo[d]isoxazole and oxazolidin-2-one rings, a new series of potent non-nucleoside HIV-1 reverse transcriptase inhibitors

Author

Christophe Pannecouque, Erik De Clercq, Karen M. Watson, Yujie Zhao, Mark Cushman, Tracy L. Hartman, Robert W. Buckheit, and Bo-Liang Deng

Subjects
Spectrometry, Mass, Electrospray Ionization, Magnetic Resonance Spectroscopy, Stereochemistry, Chemical synthesis, Article, Cell Line, chemistry.chemical_compound, Drug Discovery, Spectroscopy, Fourier Transform Infrared, medicine, Humans, Isoxazole, Oxazolidinones, Pharmacology, chemistry.chemical_classification, biology, Reverse-transcriptase inhibitor, Organic Chemistry, General Medicine, Isoxazoles, Nucleotidyltransferase, Reverse transcriptase, carbohydrates (lipids), Enzyme, chemistry, Enzyme inhibitor, biology.protein, HIV-1, Reverse Transcriptase Inhibitors, Nucleoside, medicine.drug
Abstract

As a continuation of efforts to replace the metabolically labile methyl esters of lead alkenyldiarylmethanes (ADAMs) with stable bioisosteres, compounds bearing benzo[d]isoxazole and oxazolidine-2-one rings were designed and evaluated as a new series of potent HIV-1 non-nucleoside reverse transcriptase inhibitors with anti-HIV activity. All of the resulting ADAMs were found to inhibit HIV-1 RT with poly(rC) x oligo(dG) as the template primer. The most promising compound in this series was ADAM 3, with EC(50) values of 40 nM (vs HIV-1(RF)) and 20 nM (vs HIV-1(IIIB)). Compound 3 also inhibited HIV-1 reverse transcriptase with an IC(50) of 0.91 microM. ADAM 4 has an antiviral EC(50) of 0.6 microM in CEM-SS cells and a plasma half-life of 51.4 min.

Published
2008

13. SJ-3366, a unique and highly potent nonnucleoside reverse transcriptase inhibitor of human immunodeficiency virus type 1 (HIV-1) that also inhibits HIV-2

Author

Tracy L Loftus, Jong-Sun Lee, Karen M. Watson, Mark C. Osterling, Shu-An Lee, Eui Hwan Cho, Luke A. Pallansch, Valerie Fliakas-Boltz, J.-W. Oh, Julie Russell, Ho Seok Kwon, Jim A. Turpin, Chung Sun-Gan, Robert W. Buckheit, and E. Lucile White

Subjects
medicine.medical_treatment, Pyrimidinones, Antiviral Agents, Virus, Therapeutic index, medicine, Humans, Pharmacology (medical), Pharmacology, Protease, Reverse-transcriptase inhibitor, biology, virus diseases, Drug Resistance, Microbial, Nucleotidyltransferase, Virology, Reverse transcriptase, HIV Reverse Transcriptase, Infectious Diseases, Viral replication, Enzyme inhibitor, HIV-2, Mutation, biology.protein, HIV-1, Reverse Transcriptase Inhibitors, medicine.drug, HeLa Cells
Abstract

We have identified and characterized a potent new nonnucleoside reverse transcriptase (RT) inhibitor (NNRTI) of human immunodeficiency virus type 1 (HIV-1) that also is active against HIV-2 and which interferes with virus replication by two distinct mechanisms. 1-(3-Cyclopenten-1-yl)methyl-6-(3,5-dimethylbenzoyl)-5-ethyl-2,4-pyrimidinedione (SJ-3366) inhibits HIV-1 replication at concentrations of approximately 1 nM, with a therapeutic index of greater than 4 × 10 6 . The efficacy and toxicity of SJ-3366 are consistent when evaluated with established or fresh human cells, and the compound is equipotent against all strains of HIV-1 evaluated, including syncytium-inducing, non-syncytium-inducing, monocyte/macrophage-tropic, and subtype virus strains. Distinct from other members of the pharmacologic class of NNRTIs, SJ-3366 inhibited laboratory and clinical strains of HIV-2 at a concentration of approximately 150 nM, yielding a therapeutic index of approximately 20,000. Like most NNRTIs, the compound was less active when challenged with HIV-1 strains possessing the Y181C, K103N, and Y188C amino acid changes in the RT and selected for a virus with a Y181C amino acid change in the RT after five tissue culture passages in the presence of the compound. In combination anti-HIV assays with nucleoside and nonnucleoside RT and protease inhibitors, additive interactions occurred with all compounds tested with the exception of dideoxyinosine, with which a synergistic interaction was found. Biochemically, SJ-3366 exhibited a K i value of 3.2 nM, with a mixed mechanism of inhibition against HIV-1 RT, but it did not inhibit HIV-2 RT. SJ-3366 also inhibited the entry of both HIV-1 and HIV-2 into target cells. On the basis of its therapeutic index and multiple mechanisms of anti-HIV action, SJ-3366 represents an exciting new compound for use in HIV-infected individuals.

Published
2001

21. A Microbicide Transmission and Sterilization Assay (MTSA) Defines the Effective Concentration of Topical HIV Microbicides Required to Suppress Virus Transmission

Author

Karen M. Watson, Christa E. Buckheit, and Robert W. Buckheit

Subjects
Pharmacology, Microbicides for sexually transmitted diseases, Virus transmission, business.industry, Virology, Microbicide, Human immunodeficiency virus (HIV), medicine, Sterilization (microbiology), medicine.disease_cause, business, Microbiology
Published
2008
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