Viruses (Mar 2024)

The ISG15-Protease USP18 Is a Pleiotropic Enhancer of HIV-1 Replication

  • Chaohui Lin,
  • Edmund Osei Kuffour,
  • Taolan Li,
  • Christoph G. W. Gertzen,
  • Jesko Kaiser,
  • Tom Luedde,
  • Renate König,
  • Holger Gohlke,
  • Carsten Münk

DOI
https://doi.org/10.3390/v16040485
Journal volume & issue
Vol. 16, no. 4
p. 485

Abstract

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The innate immune response to viruses is formed in part by interferon (IFN)-induced restriction factors, including ISG15, p21, and SAMHD1. IFN production can be blocked by the ISG15-specific protease USP18. HIV-1 has evolved to circumvent host immune surveillance. This mechanism might involve USP18. In our recent studies, we demonstrate that HIV-1 infection induces USP18, which dramatically enhances HIV-1 replication by abrogating the antiviral function of p21. USP18 downregulates p21 by accumulating misfolded dominant negative p53, which inactivates wild-type p53 transactivation, leading to the upregulation of key enzymes involved in de novo dNTP biosynthesis pathways and inactivated SAMHD1. Despite the USP18-mediated increase in HIV-1 DNA in infected cells, it is intriguing to note that the cGAS-STING-mediated sensing of the viral DNA is abrogated. Indeed, the expression of USP18 or knockout of ISG15 inhibits the sensing of HIV-1. We demonstrate that STING is ISGylated at residues K224, K236, K289, K347, K338, and K370. The inhibition of STING K289-linked ISGylation suppresses its oligomerization and IFN induction. We propose that human USP18 is a novel factor that potentially contributes in multiple ways to HIV-1 replication.

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