The placenta plays a crucial role in successful mammalian reproduction. Ruminant animals possess a semi-invasive placenta characterized by a highly vascularized structure formed by maternal endometrial caruncles and fetal placental cotyledons, essential for full-term fetal development. The cow placenta harbors at least two trophoblast cell populations: uninucleate (UNC) and binucleate (BNC) cells. However, the limited capacity to elucidate the transcriptomic dynamics of the placental natural environment has resulted in a poor understanding of both the molecular and cellular interactions between trophoblast cells and niches, and the molecular mechanisms governing trophoblast differentiation and functionalization. To fill this knowledge gap, we employed Stereo-seq to map spatial gene expression patterns at near single-cell resolution in the cow placenta at 90 and 130 days of gestation, attaining high-resolution, spatially resolved gene expression profiles. Based on clustering and cell marker gene expression analyses, key transcription factors, including YBX1 and NPAS2, were shown to regulate the heterogeneity of trophoblast cell subpopulations. Cell communication and trajectory analysis provided a framework for understanding cell-cell interactions and the differentiation of trophoblasts into BNCs in the placental microenvironment. Differential analysis of cell trajectories identified a set of genes involved in regulation of trophoblast differentiation. Additionally, spatial modules and co-variant genes that help shape specific tissue structures were identified. Together, these findings provide foundational insights into important biological pathways critical to the placental development and function in cows.
胎盘是哺乳动物成功繁殖的关键因素之一。反刍动物拥有半侵袭性胎盘,其特征是由母体子宫内膜肉阜和胎儿胎盘子叶形成的高度血管化结构,这对胎儿发育至足月至关重要。牛胎盘含有至少两种滋养层细胞群:单核细胞(uninucleate cell, UNC)和双核细胞(binucleate cell, BNC)。目前,阐明胎盘自然环境转录组动力学的能力有限,导致人们对滋养层细胞和生态位之间的分子和细胞相互作用以及控制滋养层分化和功能化的分子机制了解不足。为了填补这一知识空白,我们使用Stereo-seq以接近单细胞分辨率绘制了妊娠90天和130天奶牛胎盘中的空间基因表达模式。获得了高分辨率和空间信息的基因表达谱。基于聚类和细胞标记基因表达分析,包括YBX1和NPAS2在内的关键转录因子被证明可以调节滋养层细胞亚群的转录异质性。细胞通讯和轨迹分析为理解胎盘微环境中滋养层细胞与细胞的相互作用和向BNCs分化提供了一个框架。细胞轨迹的差异分析确定了一组参与滋养层分化调控的基因。此外,还鉴定了有助于塑造特定组织结构的空间模块和共变异基因。总之,这些发现为了解对奶牛胎盘发育和功能至关重要的重要生物途径提供了基础性见解。.
Keywords: Dairy cow; Gestation; Placenta; Spatial transcriptomics.