1. Academic Validation
  2. Human cytosolic extracts stabilize the HIV-1 core

Human cytosolic extracts stabilize the HIV-1 core

  • J Virol. 2013 Oct;87(19):10587-97. doi: 10.1128/JVI.01705-13.
Thomas Fricke 1 Alberto Brandariz-Nuñez Xiaozhao Wang Amos B Smith 3rd Felipe Diaz-Griffero
Affiliations

Affiliation

  • 1 Department of Microbiology and Immunology, Albert Einstein College of Medicine, Bronx, New York, USA.
Abstract

The stability of the HIV-1 core in the cytoplasm is crucial for productive HIV-1 Infection. Mutations that stabilize or destabilize the core showed defects on HIV-1 reverse transcription and Infection. We developed a novel and simple assay to measure the stability of in vitro-assembled HIV-1 CA-NC complexes. The assay allowed us to demonstrate that cytosolic extracts strongly stabilize the HIV-1 core. Interestingly, stabilization of in vitro-assembled HIV-1 CA-NC complexes is not due solely to macromolecular crowding, suggesting the presence of specific cellular factors that stabilize the HIV-1 core. By using our novel assay, we measured the abilities of different drugs, such as PF74, CAP-1, IXN-053, cyclosporine, Bi2 (also known as BI-2), and the peptide CAI, to modulate the stability of in vitro-assembled HIV-1 CA-NC complexes. Interestingly, we found that PF74 and Bi2 strongly stabilized HIV-1 CA-NC complexes. On the Other hand, the peptide CAI destabilized HIV-1 CA-NC complexes. We also found that purified Cyclophilin A destabilizes in vitro-assembled HIV-1 CA-NC complexes in the presence of cellular extracts in a cyclosporine-sensitive manner. In agreement with previous observations using the fate-of-the-capsid assay, we also demonstrated the ability of recombinant CPSF6 to stabilize HIV-1 CA-NC complexes. Overall, our findings suggested that cellular extracts specifically stabilize the HIV-1 core. We believe that our assay can be a powerful tool to assess HIV-1 core stability in vitro.

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