Regulatory roles of extracellular vesicles in pregnancy complications
Qian Sun, Hua Chang, Huan Wang, Lufeng Zheng, Yang Weng, Donghan Zheng, Dongming Zheng
Abstract
• Extracellular vesicles (EVs) participate in both physiological and pathological processes. • EVs have shown therapeutic potential in inflammation, tissue regeneration, and immunomodulation. • EVs are increasingly recognized for their regulatory functions in pregnancy complications. • This review highlights the potential of EVs as diagnostic and therapeutic tools in pregnancy complications. Extracellular vesicles (EVs) are heterogeneous membranous structures released by various cell types, including large vesicles, microvesicles (MVs), and exosomes. These vesicles play crucial roles in intercellular communication within interstitial fluids and are involved in numerous physiological and pathological processes. This review aims to examine the regulatory roles of EVs in pregnancy complications, focusing on their involvement in gestational diabetes mellitus (GDM), preeclampsia (PE), and preterm birth (PTB). Placenta- and embryo-derived EVs have gained significant attention for their biological roles due to their effects on inflammation, immune response and immunomodulation. Recent research highlights the importance of EVs in embryonic development and gestation. During pregnancy, several EVs functioned in complex endocrine regulation and pregnancy complications that can affect both the mother and fetus, with long-term cardiovascular and metabolic risks. This review discusses the current evidence on how EVs modulate pregnancy outcomes and explores their biological roles in the pathology of GDM, PE, and PTB. In spite of the current difficulties in relating these findings to the pathogenesis of pregnancy complications and the insufficient evidence for clinical practice, the potential impact of specific proteins and miRNAs transported by EVs is noteworthy on the emergence of pregnancy complications. Future research should continue to explore the complex interactions mediated by EVs to develop novel diagnostic and therapeutic strategies for pregnancy-related disorders.