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Multiparametric characterization of rare HIV-infected cells using an RNA-flow FISH technique.

Multiparametric characterization of rare HIV-infected cells using an RNA-flow FISH technique.
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Baxter AE, Niessl J, Fromentin R, Richard J, Porichis F, Massanella M, Brassard N, Alsahafi N, Routy JP, Finzi A, Chomont N, Kaufmann DE,


Baxter AE, Niessl J, Fromentin R, Richard J, Porichis F, Massanella M, Brassard N, Alsahafi N, Routy JP, Finzi A, Chomont N, Kaufmann DE, (click to view)

Baxter AE, Niessl J, Fromentin R, Richard J, Porichis F, Massanella M, Brassard N, Alsahafi N, Routy JP, Finzi A, Chomont N, Kaufmann DE,

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Nature protocols 2017 09 0712(10) 2029-2049 doi 10.1038/nprot.2017.079

Abstract

Efforts to cure HIV are hampered by limited characterization of the cells supporting HIV replication in vivo and inadequate methods for quantifying the latent viral reservoir in individuals receiving antiretroviral therapy (ART). We describe a protocol for flow cytometric identification of viral reservoirs, based on concurrent detection of cellular HIV Gagpol mRNA by in situ RNA hybridization combined with antibody staining for the HIV Gag protein. By simultaneously detecting both HIV RNA and protein, the CD4 T cells harboring translation-competent virus can be identified. The HIV(RNA/Gag) method is 1,000-fold more sensitive than Gag protein staining alone, with a detection limit of 0.5-1 Gagpol mRNA(+)/Gag protein(+) cells per million CD4 T cells. Uniquely, the HIV(RNA/Gag) assay also allows parallel phenotyping of viral reservoirs, including reactivated latent reservoirs in clinical samples. The assay takes 2 d, and requires antibody labeling for surface and intracellular markers, followed by mRNA labeling and multiple signal amplification steps.

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