Pathogens (Apr 2021)

Tick Importin-α Is Implicated in the Interactome and Regulome of the Cofactor Subolesin

  • Sara Artigas-Jerónimo,
  • Margarita Villar,
  • Alejandro Cabezas-Cruz,
  • Grégory Caignard,
  • Damien Vitour,
  • Jennifer Richardson,
  • Sandrine Lacour,
  • Houssam Attoui,
  • Lesley Bell-Sakyi,
  • Eleonore Allain,
  • Ard M. Nijhof,
  • Nina Militzer,
  • Sophia Pinecki Socias,
  • José de la Fuente

DOI
https://doi.org/10.3390/pathogens10040457
Journal volume & issue
Vol. 10, no. 4
p. 457

Abstract

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Ticks and tick-borne diseases (TBDs) represent a burden for human and animal health worldwide. Currently, vaccines constitute the safest and most effective approach to control ticks and TBDs. Subolesin (SUB) has been identified as a vaccine antigen for the control of tick infestations and pathogen infection and transmission. The characterization of the molecular function of SUB and the identification of tick proteins interacting with SUB may provide the basis for the discovery of novel antigens and for the rational design of novel anti-tick vaccines. In the present study, we used the yeast two-hybrid system (Y2H) as an unbiased approach to identify tick SUB-interacting proteins in an Ixodes ricinus cDNA library, and studied the possible role of SUB as a chromatin remodeler through direct interaction with histones. The Y2H screening identified Importin-α as a potential SUB-interacting protein, which was confirmed in vitro in a protein pull-down assay. The sub gene expression levels in tick midgut and fat body were significantly higher in unfed than fed female ticks, however, the importin-α expression levels did not vary between unfed and fed ticks but tended to be higher in the ovary when compared to those in other organs. The effect of importin-α RNAi was characterized in I. ricinus under artificial feeding conditions. Both sub and importin-α gene knockdown was observed in all tick tissues and, while tick weight was significantly lower in sub RNAi-treated ticks than in controls, importin-α RNAi did not affect tick feeding or oviposition, suggesting that SUB is able to exert its function in the absence of Importin-α. Furthermore, SUB was shown to physically interact with histone 4, which was corroborated by protein pull-down and western blot analysis. These results confirm that by interacting with numerous tick proteins, SUB is a key cofactor of the tick interactome and regulome. Further studies are needed to elucidate the nature of the SUB-Importin-α interaction and the biological processes and functional implications that this interaction may have.

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