mBio (Oct 2024)

Transition metals and oxidation reactions trigger stargate opening during the initial stages of the replicative cycle of the giant Tupanvirus

  • Juliana R. Cortines,
  • Charles M. Bridges,
  • Sundharraman Subramanian,
  • Jason R. Schrad,
  • Glauber R. S. Araújo,
  • Gabriel Henrique Pereira Nunes,
  • Juliana dos Santos Oliveira,
  • Victor Alejandro Essus,
  • Jônatas S. Abrahão,
  • Simon White,
  • Kristin N. Parent,
  • Carolyn Teschke

DOI
https://doi.org/10.1128/mbio.02192-24
Journal volume & issue
Vol. 15, no. 10

Abstract

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ABSTRACT Tupanviruses, members of the family Mimiviridae, infect phagocytic cells. Particle uncoating begins inside the phagosome, with capsid opening via the stargate. The mechanism through which this opening takes place is unknown. Once phagocytized, metal ion flux control and ROS are induced to inactivate foreign particles, including viruses. Here, we studied the effect of iron ions, copper ions, and H2O2 on Tupanvirus particles. Such treatments induced stargate opening in vitro, as observed by different microscopy techniques. Metal-treated viruses were found to be non-infectious, leading to the hypothesis that stargate opening likely resulted in the release of the viral seed, which is required for infection initiation. To the best of our knowledge, this is the first description of a giant virus capsid morphological change induced by transition metals and H2O2, which may be important to describe new virulence factors and capsid uncoating mechanisms.

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