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The Host Cell Metabolite Inositol Hexakisphosphate Promotes Efficient Endogenous HIV-1 Reverse Transcription by Stabilizing the Viral Capsid

Jordan Jennings, Jiong Shi, Janani Varadarajan, Parker J. Jamieson, Christopher Aiken

2020mBio44 citationsDOIOpen Access PDF

Abstract

HIV-1 infection requires reverse transcription of the viral genome. While much is known about the biochemistry of reverse transcription from simplified biochemical reactions, reverse transcription during infection takes place within a viral core. However, endogenous reverse transcription reactions using permeabilized HIV-1 virions or purified viral cores have been inefficient. Using viral cores purified from infectious HIV-1 particles, we show that efficient reverse transcription is achieved in vitro by addition of the capsid-stabilizing metabolite inositol hexakisphosphate. The enhancement of reverse transcription was linked to the capsid-stabilizing effect of the compound, consistent with the known requirement for an intact or semi-intact viral capsid for HIV-1 infection. Our results establish a biologically relevant system for dissecting the function of the viral capsid and its disassembly during reverse transcription. The system should also prove useful for mechanistic studies of capsid-targeting antiviral drugs.

Topics & Concepts

CapsidReverse transcriptaseTranscription (linguistics)RetrovirusDNAViral replicationBiologyRNACell biologyChemistryMolecular biologyVirologyVirusBiochemistryGeneLinguisticsPhilosophyHIV Research and TreatmentHIV/AIDS drug development and treatmentRNA Interference and Gene Delivery
The Host Cell Metabolite Inositol Hexakisphosphate Promotes Efficient Endogenous HIV-1 Reverse Transcription by Stabilizing the Viral Capsid | Litcius