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The Toxoplasma Effector GRA4 Hijacks Host TBK1 to Oppositely Regulate Anti-T. Gondii Immunity and Tumor Immunotherapy.

Zhiqiang HuYufen ZhangYingchao XieJianwu YangHaotian TangBolin FanKe ZengZhongxin HanJiansen LuHuaji JiangWenqiang PengHongyu LiHuadan ChenSha WuBang ShenZhao-Rong LunXiao Yu
Published in: Advanced science (Weinheim, Baden-Wurttemberg, Germany) (2024)
Toxoplasma gondii (T. gondii)-associated polymorphic effector proteins are crucial in parasite development and regulating host anti-T. gondii immune responses. However, the mechanism remains obscure. Here, it is shown that Toxoplasma effector dense granules 4 (GRA4) restricts host IFN-I activation. Infection with Δgra4 mutant T. gondii strain induces stronger IFN-I responses and poses a severe threat to host health. Mechanistically, GRA4 binds to phosphorylated TBK1 to promote TRIM27-catalyzed K48-ubiquitination at Lys251/Lys372 residues, which enhances its recognition by autophagy receptor p62, ultimately leading to TBK1 autophagic degradation. Furthermore, an avirulent Δgra4 strain (ME49Δompdc/gra4) is constructed for tumor immunotherapy due to its ability to enhance IFN-I production. Earlier vaccination with ME49Δompdc/gra4 confers complete host resistance to the tumor compared with the classical ME49Δompdc treatment. Notably, ME49Δompdc/gra4 vaccination induces a specific CD64 + MAR-1 + CD11b + dendritic cell subset, thereby enhancing T cell anti-tumor responses. Overall, these findings identify the negative role of T. gondii GRA4 in modulating host IFN-I signaling and suggest that GRA4 can be a potential target for the development of T. gondii vaccines and tumor immunotherapy.
Keyphrases
  • dendritic cells
  • toxoplasma gondii
  • immune response
  • regulatory t cells
  • cell death
  • signaling pathway
  • inflammatory response
  • wastewater treatment
  • binding protein
  • combination therapy