Increased EHD1 in trophoblasts causes RSM by activating TGFβ signaling

Recurrent spontaneous miscarriage (RSM) is one of the complications during pregnancy. However, the pathogenesis of RSM is far from fully elucidated.

Increased expression of EHD1 impaired the invasion of EVTs mediated by the TGFBR1-SMAD2/3 signaling pathway and induced abnormal syncytialization of STB, which is at least partially responsible for RSM.

Since the endocytic pathway is crucial for cellular homeostasis, our study aimed to explore the roles of endocytic recycling, especially EH domain containing 1 (EHD1), a member of the endocytic recycling compartment, in RSM. Study design: We first investigated the expression of the endocytic pathway member EHD1 in villi from the normal and RSM groups. Then, we performed RNA sequencing and experiments in villi, HTR8 cells and BeWo cells to determine the mechanisms by which EHD1 induced RSM. Finally, placenta-specific EHD1-overexpressing mice were generated to investigate the RSM phenotype in vivo.

EHD1 was expressed in extravillous trophoblasts (EVTs) and syncytiotrophoblast (STB) in the villi. Compared with the control group, RSM patients expressed higher EHD1. A high level of EHD1 decreased proliferation, promoted apoptosis, and reduced the migration and invasion of HTR8 cells by activating the TGFBR1-SMAD2/3 signaling pathway. The TGFBR1 antagonist LY3200882 partially reversed the EHD1 overexpression-induced changes in the cell phenotype. Besides, a high level of EHD1 also induced abnormal syncytialization, which disturbed maternal-fetal material exchanges. In a mouse model, placenta-specific overexpression of EHD1 led to the failure of spiral artery remodeling, excessive syncytialization and miscarriage. Conclusions: Increased expression of EHD1 impaired the invasion of EVTs mediated by the TGFBR1-SMAD2/3 signaling pathway and induced abnormal syncytialization of STB, which is at least partially responsible for RSM.