PLoS Pathogens (Oct 2023)

Structural and functional basis of low-affinity SAM/SAH-binding in the conserved MTase of the multi-segmented Alongshan virus distantly related to canonical unsegmented flaviviruses.

  • Hua Chen,
  • Sheng Lin,
  • Fanli Yang,
  • Zimin Chen,
  • Liyan Guo,
  • Jing Yang,
  • Xi Lin,
  • Lingling Wang,
  • Yanping Duan,
  • Ao Wen,
  • Xindan Zhang,
  • Yushan Dai,
  • Keqing Yin,
  • Xin Yuan,
  • Chongzhang Yu,
  • Yarong He,
  • Bin He,
  • Yu Cao,
  • Haohao Dong,
  • Jian Li,
  • Qi Zhao,
  • Quan Liu,
  • Guangwen Lu

DOI
https://doi.org/10.1371/journal.ppat.1011694
Journal volume & issue
Vol. 19, no. 10
p. e1011694

Abstract

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Alongshan virus (ALSV), a newly discovered member of unclassified Flaviviridae family, is able to infect humans. ALSV has a multi-segmented genome organization and is evolutionarily distant from canonical mono-segmented flaviviruses. The virus-encoded methyltransferase (MTase) plays an important role in viral replication. Here we show that ALSV MTase readily binds S-adenosyl-L-methionine (SAM) and S-adenosyl-L-homocysteine (SAH) but exhibits significantly lower affinities than canonical flaviviral MTases. Structures of ALSV MTase in the free and SAM/SAH-bound forms reveal that the viral enzyme possesses a unique loop-element lining side-wall of the SAM/SAH-binding pocket. While the equivalent loop in flaviviral MTases half-covers SAM/SAH, contributing multiple hydrogen-bond interactions; the pocket-lining loop of ALSV MTase is of short-length and high-flexibility, devoid of any physical contacts with SAM/SAH. Subsequent mutagenesis data further corroborate such structural difference affecting SAM/SAH-binding. Finally, we also report the structure of ALSV MTase bound with sinefungin, an SAM-analogue MTase inhibitor. These data have delineated the basis for the low-affinity interaction between ALSV MTase and SAM/SAH and should inform on antiviral drug design.