Regionally distinct trophoblast regulate barrier function and invasion in the human placenta

The human placenta contains two specialized regions: the villous chorion where gases and nutrients are exchanged between maternal and fetal blood, and the smooth chorion (SC) which surrounds more than 70% of the developing fetus but whose cellular composition and function is poorly understood. Here, we use single cell RNA-sequencing to compare the cell types and molecular programs between these two regions in the second trimester human placenta. Each region consists of progenitor cytotrophoblasts (CTBs) and extravillous trophoblasts (EVTs) with similar gene expression programs. While CTBs in the villous chorion differentiate into syncytiotrophoblasts, they take an alternative trajectory in the SC producing a previously unknown CTB population which we term SC-specific CTBs (SC-CTBs). Marked by expression of region-specific cytokeratins, the SC-CTBs form a stratified epithelium above a basal layer of progenitor CTBs. They express epidermal and metabolic transcriptional programs consistent with a primary role in defense against physical stress and pathogens. Additionally, we show that SC-CTBs closely associate with EVTs and secrete factors that inhibit the migration of the EVTs. This restriction of EVT migration is in striking contrast to the villous region where EVTs migrate away from the chorion and invade deeply into the decidua. Together, these findings greatly expand our understanding of CTB differentiation in these distinct regions of the human placenta. This knowledge has broad implications for studies of the development, functions, and diseases of the human placenta.

Automated summary

By using single cell RNA-sequencing, this study compares the cell types and molecular programs between two specialized regions of the human placenta. It finds a previously unknown cell population in the smooth chorion that forms a stratified epithelium and exhibits characteristics of skin and metabolism, potentially playing a significant role in defense against stress and pathogens. Moreover, these cells inhibit the migration of extravillous trophoblasts, in contrast to the villous region. These findings greatly expand our understanding of cell differentiation and have broad implications for the development, functions, and diseases of the human placenta.