Capsid lattice destabilization leads to premature loss of the viral genome and integrase enzyme during HIV-1 infection

Eschbach, Jenna E.; Elliott, Jennifer L; Li, Wen; Zadrozny, Kaneil K.; Davis, Keanu; Mohammed, Shawn; Lawson, Dana Q.; Pornillos, Owen; Engelman, Alan; Kutluay, Sebla B.

doi:10.1101/2020.03.26.009902

Cited by 2 publications

(1 citation statement)

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“…Notwithstanding, the timing and degree of uncoating is critical for completion of reverse transcription. Several mutations in CA can destabilize the CA lattice, resulting in severe defects in reverse transcription [28][29][30][31], presumably due to premature degradation of the core components, including IN [32]. IN remains associated with the reverse transcription complex, and following completion of cDNA synthesis, a multimer of IN binds to both ends of the linear viral DNA to form the intasome, or the stable synaptic complex.…”

Section: Overview Of the Hiv-1 Life Cyclementioning

confidence: 99%

Going beyond Integration: The Emerging Role of HIV-1 Integrase in Virion Morphogenesis

Elliott

Kutluay

2020

Viruses

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The HIV-1 integrase enzyme (IN) plays a critical role in the viral life cycle by integrating the reverse-transcribed viral DNA into the host chromosome. This function of IN has been well studied, and the knowledge gained has informed the design of small molecule inhibitors that now form key components of antiretroviral therapy regimens. Recent discoveries unveiled that IN has an under-studied yet equally vital second function in human immunodeficiency virus type 1 (HIV-1) replication. This involves IN binding to the viral RNA genome in virions, which is necessary for proper virion maturation and morphogenesis. Inhibition of IN binding to the viral RNA genome results in mislocalization of the viral genome inside the virus particle, and its premature exposure and degradation in target cells. The roles of IN in integration and virion morphogenesis share a number of common elements, including interaction with viral nucleic acids and assembly of higher-order IN multimers. Herein we describe these two functions of IN within the context of the HIV-1 life cycle, how IN binding to the viral genome is coordinated by the major structural protein, Gag, and discuss the value of targeting the second role of IN in virion morphogenesis.

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Section: Overview Of the Hiv-1 Life Cyclementioning

confidence: 99%

Going beyond Integration: The Emerging Role of HIV-1 Integrase in Virion Morphogenesis

Elliott

Kutluay

2020

Viruses

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Structure, Function, and Interactions of the HIV-1 Capsid Protein

Rossi

Meuser

Cunanan

et al. 2021

Life

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The capsid (CA) protein of the human immunodeficiency virus type 1 (HIV-1) is an essential structural component of a virion and facilitates many crucial life cycle steps through interactions with host cell factors. Capsid shields the reverse transcription complex from restriction factors while it enables trafficking to the nucleus by hijacking various adaptor proteins, such as FEZ1 and BICD2. In addition, the capsid facilitates the import and localization of the viral complex in the nucleus through interaction with NUP153, NUP358, TNPO3, and CPSF-6. In the later stages of the HIV-1 life cycle, CA plays an essential role in the maturation step as a constituent of the Gag polyprotein. In the final phase of maturation, Gag is cleaved, and CA is released, allowing for the assembly of CA into a fullerene cone, known as the capsid core. The fullerene cone consists of ~250 CA hexamers and 12 CA pentamers and encloses the viral genome and other essential viral proteins for the next round of infection. As research continues to elucidate the role of CA in the HIV-1 life cycle and the importance of the capsid protein becomes more apparent, CA displays potential as a therapeutic target for the development of HIV-1 inhibitors.

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Capsid lattice destabilization leads to premature loss of the viral genome and integrase enzyme during HIV-1 infection

Cited by 2 publications

References 146 publications

Going beyond Integration: The Emerging Role of HIV-1 Integrase in Virion Morphogenesis

Going beyond Integration: The Emerging Role of HIV-1 Integrase in Virion Morphogenesis

Structure, Function, and Interactions of the HIV-1 Capsid Protein

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