Molecular regulation and functional benefits of trophoblast syncytialization in optimizing maternal-fetal nutrient allocation
Qianqian Li, Yuelin J. Zhu, Xin Yu, Xuan Shao, Yanling Wang
Abstract
The placenta governs maternal-fetal nutrient allocation during pregnancy, primarily mediated by placental villi composed of multinucleated syncytiotrophoblasts (STBs) and mononucleated cytotrophoblasts (CTBs) in humans. STBs are formed through cell fusion of CTBs, a process termed syncytialization. The placental villi are bathed in maternal blood sinus, functioning as a critical unit for bidirectional exchange of nutrients and wastes between the mother and fetus, hormone production, and defense against pathogen infection. Trophoblast fusion is regulated by an intricate network of hormones, growth factors, and cytokines, involving mechanisms such as genetic transcription, endogenous retrovirus-derived signaling, epigenetic regulation via DNA methylation or histone modifications, and post-translational modifications including O-GlcNAcylation and ubiquitination. Emerging evidence highlights STBs as nutrient-sensing hubs that adapt transport capacity to maternal nutrient availability. Recent studies demonstrate the activation of macropinocytosis in STBs via mTOR signaling under conditions of nutritional scarcity, synergizing with the multinucleation process to enhance substrate uptake. Metabolomic analyses reveal remarkable suppression of glycolysis and increased fatty acid oxidation in STBs, while appropriate glucose-acetate metabolism epigenetically guides trophoblast cell fate toward syncytium formation. Consequently, metabolic signalings in trophoblasts constitutes a vital physiological mechanism for balancing maternal-placental-fetal nutrient allocation. The integration of interdisciplinary approaches, including single-cell omics, advanced imaging techniques, and organoid models, holds promise for transformative insights into placental biology and the development of diagnostics and therapies targeting placental insufficiency syndromes affecting maternal and fetal health.