4.6 Article

Theileria annulata SVSP455 interacts with host HSP60

Journal

PARASITES & VECTORS
Volume 15, Issue 1, Pages -

Publisher

BMC
DOI: 10.1186/s13071-022-05427-z

Keywords

Theileria annulata; SVSP455; Interaction; Transformation; Host cell apoptosis

Funding

  1. 973 Program [2015CB150300]
  2. National Key Research and Development Program of China [2017YFD0500403]
  3. National Natural Science Foundation of China [31972706, 31402189]
  4. The Leading Fund of Lanzhou Veterinary Research Institute, CAAS [LVRI-SZJJ-202105]
  5. ASTIP
  6. hatching program of SKLVEB [SKLVEB2021CGQD02]

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This study reveals for the first time that Theileria annulata-secreted SVSP455 molecule directly interacts with both exogenous and endogenous bovine HSP60 protein, and that the interaction of SVSP455-HSP60 may manipulate the host cell apoptosis signaling pathway. These results provide insights into cancer-like phenotypes underlying Theileria transformation and therapeutics for protection against other pathogens.
Background: Theileria annulata, a transforming parasite, invades bovine B cells, dendritic cells and macrophages, promoting the uncontrolled proliferation of these cells. This protozoan evolved intricate strategies to subvert host cell signaling pathways related to antiapoptotic signaling to enable survival and proliferation within the host cells. However, the molecular mechanisms of the cell transformation induced by T. annulata remain largely unclear. Although some studies have predicted that the subtelomere-encoded variable secreted protein (SVSP) family plays roles in host-parasite interactions, the evidence for this is limited. Methods: In the present study, the SVSP455 (TA05545) gene, a member of the SVSP gene family, was used as the target molecule. The expression pattern of SVSP455 in different life-cycle stages of T. annulata infection was explored using a quantitative real-time PCR assay, and the subcellular distribution of SVSP455 was observed using confocal microscopy. The host cell proteins interacting with SVSP455 were screened using the Y2H system, and their interactions were verified in vivo and in vitro using both bimolecular fluorescence complementation and confocal microscopy, and co-immunoprecipitation assays. The role played by SVSP455 in cell transformation was further explored by using overexpression, RNA interference and drug treatment experiments. Results: The highest level of the SVSP455 transcript was detected in the schizont stage of T. annulata, and the protein was located both on the surface of schizonts and in the host cell cytoplasm. In addition, the interaction between SVSP455 and heat shock protein 60 was shown in vitro, and their link may regulate host cell apoptosis in T. annulatainfected cells. Conclusion: Our findings are the first to reveal that T. annulata-secreted SVSP455 molecule directly interacts with both exogenous and endogenous bovine HSP60 protein, and that the interaction of SVSP455-HSP60 may manipulate the host cell apoptosis signaling pathway. These results provide insights into cancer-like phenotypes underlying Theilera transformation and therapeutics for protection against other pathogens.

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