Litcius/Paper detail

Placenta exosomal miRNA-30d-5p facilitates decidual macrophage polarization by targeting HDAC9

Kunfeng Bai, Jianlin Li, Leqian Lin, Qingqing Zhang, Jiangming Zhong, Xiaofeng Liu, Dandan Cao, Yong‐Gang Duan, Yuanqing Yao, Raymond Li, Ka Wang Cheung, William S.B. Yeung, Philip C.N. Chiu, Cheuk‐Lun Lee

2023Journal of Leukocyte Biology16 citationsDOIOpen Access PDF

Abstract

Pregnancy involves a wide range of adaptations in the maternal body. Maternal immune tolerance toward the foreign fetus is critical for a successful pregnancy. Decidual macrophages are the primary antigen-presenting and phagocytic cells responsible for antigen presentation and apoptotic cell removal. Their phenotype changes dynamically during pregnancy. Placenta-derived exosomes are small vesicles carrying active biological molecules such as microRNAs, proteins, and lipids. The placenta-derived exosomes have been implicated in endothelial cell activation, smooth muscle cell migration, and T-cell apoptosis, but it is unknown whether placenta-derived exosomes would affect the development and functions of decidual macrophages. In this study, we reported that placenta-derived exosomes stimulated macrophage polarization into alternatively activated (M2) macrophages. Mechanistically, miRNA-30d-5p from the placenta-derived exosomes induced macrophage polarization to the M2 phenotype by targeting histone deacetylase 9. Furthermore, the conditioned medium of placenta-derived exosome-treated macrophages promoted trophoblast migration and invasion. By contrast, the conditioned medium impaired the ability of endothelial cell tube formation and migration. Placenta-derived exosome-treated macrophages had no impact on T-cell proliferation. Together, we demonstrated that placenta-derived exosomes polarize macrophages to acquire a decidua-like macrophage phenotype to modulate trophoblast and endothelial cell functions.

Topics & Concepts

MicrovesiclesTrophoblastMacrophage polarizationCell biologyDeciduaPlacentaBiologyExosomeMacrophageCell migrationM2 MacrophageImmunologyCellmicroRNAFetusIn vitroPregnancyBiochemistryGeneticsGeneReproductive System and PregnancyPregnancy and preeclampsia studiesCOVID-19 Impact on Reproduction