David J. Looney scite author profile

Small interfering RNA (siRNA) and microRNA silence genes at the transcriptional, posttranscriptional, and/or translational level. Using human tissue culture cells, we show that promoter-directed siRNA inhibits transcription of an integrated, proviral, elongation factor 1alpha (EF1A) promoter-green fluorescent protein reporter gene and of endogenous EF1A. Silencing was associated with DNA methylation of the targeted sequence, and it required either active transport of siRNA into the nucleus or permeabilization of the nuclear envelope by lentiviral transduction. These results demonstrate that siRNA-directed transcriptional silencing is conserved in mammals, providing a means to inhibit mammalian gene function.

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Efficient transduction of nondividing human cells by feline immunodeficiency virus lentiviral vectors

Poeschla

Wong‐Staal

Looney

1998

Nat Med

403

282

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The molecular bases for species barriers to lentiviral replication are not well understood, but are of interest for explaining lentiviral pathogenesis, devising therapeutic strategies, and adapting lentiviruses to gene therapy. HIV-1-based lentiviral vectors efficiently transduce nondividing cells, but present complex safety concerns. Nonprimate (ungulate or feline) lentiviruses might provide safer alternatives, but these viruses display highly restricted tropisms, and their potential for adaptation as replication-defective vectors capable of transducing human cells is unknown. Feline immunodeficiency virus (FIV) does not infect humans or other non-Felidae despite prevalent natural exposure. Although long terminal repeat (LTR)-directed FIV expression was found to be negligible in human cells, promoter substitution enabled an env-deleted, three-plasmid, human cell-FIV lentiviral vector system to express high levels of FIV proteins and FIV vectors in human cells, thus bypassing the hazards of feline vector producer cells. Pseudotyped FIV vectors efficiently transduced dividing, growth-arrested, and postmitotic human targets. The experiments delineate mechanisms involved in species-restricted replication of this lentivirus and show that human cells support both productive- and infective-phase mechanisms of the FIV life cycle needed for efficient lentiviral vector transduction. Nonprimate lentiviral vectors may offer safety advantages, and FIV vectors provide unique experimental opportunities.

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Dextran Sulfate Suppression of Viruses in the HIV Family: Inhibition of Virion Binding to CD4 ⁺ Cells

Mitsuya

Looney

Kuno

et al. 1988

Science

459

220

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The first step in the infection of human T lymphocytes by human immunodeficiency virus type 1 (HIV-1) is attachment to the target cell receptor, the CD4 antigen. This step may be vulnerable to attack by antibodies, chemicals, or small peptides. Dextran sulfate (molecular weight approximately 8000), which has been given to patients as an anticoagulant or antilipemic agent for more than two decades, was found to block the binding of virions to various target T lymphocytes, inhibit syncytia formation, and exert a potent inhibitory effect against HIV-1 in vitro at concentrations that may be clinically attainable in human beings. This drug also suppressed the replication of HIV-2 in vitro. These observations could have theoretical and clinical implications in the strategy to develop drugs against HIV types 1 and 2.

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David J. Looney

Small Interfering RNA-Induced Transcriptional Gene Silencing in Human Cells

Efficient transduction of nondividing human cells by feline immunodeficiency virus lentiviral vectors

Dextran Sulfate Suppression of Viruses in the HIV Family: Inhibition of Virion Binding to CD4 ⁺ Cells

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David J. Looney

Small Interfering RNA-Induced Transcriptional Gene Silencing in Human Cells

Efficient transduction of nondividing human cells by feline immunodeficiency virus lentiviral vectors

Dextran Sulfate Suppression of Viruses in the HIV Family: Inhibition of Virion Binding to CD4 + Cells

Contact Info

Product

Resources

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Dextran Sulfate Suppression of Viruses in the HIV Family: Inhibition of Virion Binding to CD4 ⁺ Cells