Isabel Hagmann scite author profile

The relationship between sensitivity to antiviral drugs and viral fitness is of paramount importance in understanding the long-term implications of clinical resistance. Here we report the development of a novel recombinant virus assay to study entry inhibitor-resistant HIV variants using a biologically relevant cell type, primary CD4 T-cells. We have modified the replication-competent molecular clone HIV(NL4-3) to express a reporter protein (Renilla luciferase), Green Fluorescent Protein (EGFP), or Red Fluorescent Protein (DsRed2) upon infection, thus allowing quantification of replication. Luciferase-expressing virus was used to evaluate drug sensitivity, while co-infection with viruses carrying the green and red fluorescent proteins was employed in the competitive fitness assay. Using envelope proteins from three T20 insensitive variants, lower levels of resistance were observed in primary CD4 T-cells than had been previously reported for cell lines. Importantly, dual-color competition assays demonstrated comparable or higher fitness for these variants despite their reduced T20 sensitivity. We conclude that reduced sensitivity to T20 is compatible with high viral fitness in the absence of selection pressure. Thus, simultaneously measuring both resistance and viral fitness using this newly described dual-color competition assay will likely provide important information about resistant viral variants that emerge during therapy with entry inhibitors.

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Determinants of Human Immunodeficiency Virus Type 1 Resistance to Membrane-Anchored gp41-Derived Peptides

Lohrengel

Hermann

Hagmann

et al. 2005

J Virol

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Human TRIM5α mediated restriction of different HIV-1 subtypes and Lv2 sensitive and insensitive HIV-2 variants

2006

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FFVFF - Stiftung Fonds für versuchstierfreie Forschung

Hagmann¹,

Goll²,

Gruber³

1995

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Isabel Hagmann

T20-insensitive HIV-1 from naïve patients exhibits high viral fitness in a novel dual-color competition assay on primary cells

Determinants of Human Immunodeficiency Virus Type 1 Resistance to Membrane-Anchored gp41-Derived Peptides

Human TRIM5α mediated restriction of different HIV-1 subtypes and Lv2 sensitive and insensitive HIV-2 variants

FFVFF - Stiftung Fonds für versuchstierfreie Forschung

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