A single-cell transcriptomic atlas of the pigtail macaque placenta in late gestation
AI Summary
Generated a single-cell RNA-Seq atlas of third trimester pigtail macaque placenta across chorionic villi, chorioamniotic membranes and maternal decidua.
Cell populations and frequencies are highly concordant with human placenta, spanning trophoblast, stromal, immune and macrophage lineages.
Deep sequencing of three interface tissues revealed diverse common and rare cell populations and enables investigation of experimental perturbations and cell-cell communication.
BMC Genomics. 2026 Jun 26. doi: 10.1186/s12864-026-13095-x. Online ahead of print.
ABSTRACT
BACKGROUND: The placenta is a complex organ with multiple immune and non-immune cell types that promote fetal tolerance and facilitate the transfer of nutrients and oxygen. The nonhuman primate (NHP) is a key experimental model for studying human pregnancy complications, in part due to similarities in placental structure, which makes it essential to understand how single-cell populations compare across the human and NHP maternal-fetal interface. We constructed a single-cell RNA-Seq (scRNA-Seq) atlas of the placenta from the pigtail macaque (Macaca nemestrina) in the third trimester, comprising three different tissues at the maternal-fetal interface: the chorionic villi (placental disc), chorioamniotic membranes, and the maternal decidua. Each tissue was separately dissociated into single cells and processed through the 10X Genomics and Seurat pipeline, followed by aggregation, unsupervised clustering, and cluster annotation. Next, we determined the maternal-fetal origins of cell populations and analyzed single-cell RNA trajectory, Gene Ontology enrichment, and cell-cell communication.
RESULTS: Single-cell populations in the pigtail macaque were strikingly similar in their identity and frequency to those found in the human placenta, including cells from trophoblast, stromal cell, immune, and macrophage lineages. An advantage of our approach was the deep sequencing of three tissues at the maternal-fetal interface, which yielded a rich diversity of common and rare single-cell populations.
CONCLUSIONS: Single-cell populations from the third-trimester pigtail macaque placenta are highly concordant with those from the human placenta. This scRNA-Seq atlas provides a powerful resource for understanding experimental perturbations on the NHP placenta.
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