ROP16 Deletion: The Exacerbated Impact on Adverse Pregnant Outcomes in Mice

Overview

Journal Front Microbiol

Specialty Microbiology

Date 2020 Feb 22

PMID 32082272

Citations 5

Authors

Wen Cui

Cong Wang

Qingli Luo

Tian Xing

Jilong Shen

Wei Wang

Affiliations

Soon will be listed here.

Abstract

Imbalance of Th1 and Th2 response at the maternal-fetal interface is considered as a radical event in the pathogenesis of immunity-related pregnant diseases. It has been demonstrated that the ROP16, a rhoptry protein of , and the viable parasite with ROP16 may induce M2 macrophage polarization in host innate immunity and may be involved in the adverse pregnant outcomes. However, the mechanisms by which -derived effectors subvert the immune tolerance in the pathology of pregnancy remain unclear. Here, we constructed the RH strain with ROP16 deletion (RHΔ) to explore the pathogenesis of abnormal pregnancy. We found that C57BL/6 mice infected with RHΔ exhibited the increased resorption of fetuses and more severe adverse pathology of placentae at the early phase of gestation, as compared to the mice infected with RH wild type (RH WT) parasite. Additionally, RHΔ strain infection significantly promoted M1 macrophage phenotypes of CD80 and CD86, and decreased CD206 expression of M2 macrophages, with upregulation of the iNOS and downregulation of the Arg-1 expression in placental homogenates. Simultaneously, the pro-inflammatory cytokines of IL-12 and TNF-α were elevated whereas the anti-inflammatory cytokine of TGF-β1 was dampened. Moreover, the p38α mitogen-activated protein kinase (p38α MAPK) was notably phosphorylated in placental macrophages infected with both RHΔ and RH WT strains compared with the control. Taken together, our findings indicated that ROP16 deletion of type I RH strain may cause exacerbated adverse pregnant outcomes, which is attributable to subversion of the maternal immune tolerance due to the increased pro-inflammatory cytokines in the pregnant animals. The results also suggest that ROP16 might be a protective factor and other -derived molecules might be involved in the M1-Th1 biased pathological process in aberrant pregnancy at the early phase of gestation.

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