Eva S. Leake scite author profile

A new class of membrane-active ether lipid (EL) analogs of platelet-activating factor were studied for in vitro anti-HIV-1 activity. Human T-cell (CEM-ss) monolayers or suspension cultures were used to determine effects of structural modifications of Type A phosphorus-containing and Type B nonphosphorus EL analogs on (a) the inhibitory concentration50 (IC50) for HIV-1 syncytial plaque formation and cell growth, and, (b) virus budding at the cell plasma membrane. Results indicate that representative Type A and Type B EL inhibit HIV-1 but not herpes simplex virus type 2 plaque formation when added before or up to 2 days after viral infection. Anti-HIV-1 activity does not involve direct inactivation of virus infectivity. Type A EL (IC50 range = 0.2-1.4 microM) with alkyoxy, alkylthio, or alkyamido substitution at glycerol position 1 and ethoxy or methoxy substitution at position 2, and Type B compounds (IC50 range = 0.33-0.63 microM) with an inverse choline or nitrogen heterocyclic substitution at position 3 have selective activity against HIV-1-infected T-cells. EL treatment of HIV-1-infected cells is associated with subsequent release of reverse transcriptase activity, but infectious virus production is inhibited with time after infection. Electron microscopic examination of HIV-1-infected and EL-treated cells revealed absence of detectable budding virus at the plasma membrane but presence of intracytoplasmic vacuolar virus particles. In summary, these data suggest that EL analogs are a novel class of agents that induce defective intracytoplasmic vacuolar HIV-1 formation in T-cells. Being membrane interactive, EL are ideally suited for combination chemotherapy with DNA-interactive anti-HIV nucleoside analogs.

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Human Immunodeficiency Virus Type 1 (HIV-1) and Herpes Simplex Virus Type 2 (HSV-2) Can Coinfect and Simultaneously Replicate in the Same Human CD4⁺Cell: Effect of Coinfection on Infectious HSV-2 and HIV-1 Replication

Kucera

Leake²,

Iyer³

et al. 1990

AIDS Research and Human Retroviruses

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Experiments were designed to determine whether HIV-1 and herpes simplex virus type 2 (HSV-2) coinfection leads to simultaneous replication of both viruses in the same human CD4+ cell (MT-4 cell line) and the possible effects of coinfection on infectious virus production. Results from transmission electron microscopy analysis revealed replication of typical HSV-2 nucleocapsids in the nucleus and budding of HIV-1 particles through the plasma membrane and through intracytoplasmic vacuoles containing enveloped HSV-2 particles in the same coinfected cell. Coinfection of HIV-1 persistently infected H9IIIB or promonocytic U1 cells with HSV-2 did not alter total production of infectious HSV-2 or the percentage of HSV-2 infectious centers compared with control H9 and U937 cells infected with HSV-2 alone. However, in coinfected promonocytic U1 cells HSV-2 induced infectious HIV-1 production measured by syncytial plaque assay. In summary, both HIV-1 and HSV-2 can coinfect and simultaneously replicate in the same human CD4+ cell. Interactions between HIV-1 and HSV-2 appear to be unidirectional, resulting in accelerated replication of HIV-1 as reported by Albrecht et al. (J Virol 1989;63:1861-1868), but not HSV-2 as shown by us.

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Phagosomal membranes of Mycobacterium bovis BCG-immune alveolar macrophages are resistant to disruption by Mycobacterium tuberculosis H37Rv

Leake¹,

Myrvik²,

Wright³

1984

Infect Immun

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Data obtained in this study reaffirm that virulent Mycobacterium tuberculosis H37Rv has a potent phagosome-destroying capacity when ingested by normal alveolar macrophages. In contrast, Mycobacterium bovis BCG-immune alveolar macrophages are highly resistant to this virulence mechanism. BCG-immune sera incubated with BCG-immune alveolar macrophages did not increase resistance of BCG-immune alveolar macrophages as compared with the data obtained from experiments with normal sera. BCG-immune sera failed to confer resistance to normal alveolar macrophages against the phagosomal membrane-destroying H37Rv virulence mechanism.

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Specificity of a BCG-Induced Pulmonary Granulomatous Response in Rabbits

1973

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The specificity of Bacillus Calmette Guerin (BCG)-induced accelerated pulmonary granuloma formation has been evaluated in rabbits by cross sensitization-challenge experiments by using another granulomagenic organism, Corynebacterium granulosum. BCG-sensitized rabbits responded to challenge with homologous but not heterologous antigen, indicating that BCG-induced accelerated granuloma formation displays specificity characteristic of immunological reactions. These differences were also observed in local pulmonary delayed hypersensitivity, as determined by the migration inhibition test. The relationship between local pulmonary delayed hypersensitivity and the accelerated granulomatous response is discussed.

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Eva S. Leake

Novel Membrane-Interactive Ether Lipid Analogs That Inhibit Infectious HIV-1 Production and Induce Defective Virus Formation

Human Immunodeficiency Virus Type 1 (HIV-1) and Herpes Simplex Virus Type 2 (HSV-2) Can Coinfect and Simultaneously Replicate in the Same Human CD4⁺Cell: Effect of Coinfection on Infectious HSV-2 and HIV-1 Replication

Phagosomal membranes of Mycobacterium bovis BCG-immune alveolar macrophages are resistant to disruption by Mycobacterium tuberculosis H37Rv

Specificity of a BCG-Induced Pulmonary Granulomatous Response in Rabbits

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About

Eva S. Leake

Novel Membrane-Interactive Ether Lipid Analogs That Inhibit Infectious HIV-1 Production and Induce Defective Virus Formation

Human Immunodeficiency Virus Type 1 (HIV-1) and Herpes Simplex Virus Type 2 (HSV-2) Can Coinfect and Simultaneously Replicate in the Same Human CD4+Cell: Effect of Coinfection on Infectious HSV-2 and HIV-1 Replication

Phagosomal membranes of Mycobacterium bovis BCG-immune alveolar macrophages are resistant to disruption by Mycobacterium tuberculosis H37Rv

Specificity of a BCG-Induced Pulmonary Granulomatous Response in Rabbits

Contact Info

Product

Resources

About

Human Immunodeficiency Virus Type 1 (HIV-1) and Herpes Simplex Virus Type 2 (HSV-2) Can Coinfect and Simultaneously Replicate in the Same Human CD4⁺Cell: Effect of Coinfection on Infectious HSV-2 and HIV-1 Replication