Project description:Comparison of genes associated with the EMT between cytotrophoblast cells (CTB) and extravillous trophoblast cells (EVT) from normal third trimester placenta and abnormally invasive placenta (AIP)

Project description:The establishment and function of the human placenta is dependent on specialized cells called trophoblasts. We here report transcriptomic data from n=3 pooled human first trimester patient-derived regenerative and n=3 pooled EVT differentiated trophoblast organoids (PD-TOrg) at single-cell resolution. This study sought to compare the undifferentiated and EVT-differentiated PD-TOrg molecular programs and cell states to those found in vivo and in hTSC-TOrgs previously published in Shannon et al., 2022. Placental tissues were collected following elective termination at the British Columbia Women’s Hospital CARE clinic for PD-TOrg establishment. PD-TOrg cultures were established and differentiated as described and sequenced on either day 0 of culture (for regenerative organoid colonies), or day 7 of culture (for EVT-differentiated organoid colonies).

Project description:Cytotrophoblast (CTB) are bipotent progenitor epithelial cells of the human placenta, which can differentiate into invasive extravillous trophoblast (EVT) and multinucleated syncytiotrophoblast (STB). Trophoblast stem cells (TSC) have also been shown to be bipotential. In this study, we set out to probe the transcriptional diversity of first trimester CTB and compare TSC to various subgroups of CTB. We performed single-cell RNA sequencing on six normal placentae, four 6-week placentae, two of which were separated into basal and chorionic fractions prior to sequencing, and two 13-week placentae. We also sequenced three TSC lines, derived from 6-8 week placentae, to evaluate similarities and differences between primary CTB and TSC. CTB clusters displayed notable distinctions based on gestational age, with 6-week placentae showing enrichment for specific CTB subtypes, further influenced by origin from the basal or chorionic plate. Differential expression analysis of CTB from basal versus chorionic plate highlighted pathways associated with proliferation, unfolded protein response, and oxidative phosphorylation. We identified trophoblast states representing initial progenitor CTB, precursor STB, precursor and mature EVT, and multiple CTB subtypes. CTB progenitors were enriched at 6-weeks, with basal plate cells biased toward EVT, and chorionic plate cells toward STB, precursors. Clustering and trajectory inference analysis indicated that TSC were most like EVT precursor cells, with only a small percentage of TSC on the pre-STB differentiation trajectory. This was confirmed by flow cytometric analysis of 6 different TSC lines, which showed uniform expression of proximal column markers ITGA2 and ITGA5. Additionally, we found that only ITGA5+ CTB could be plated in 2D, and these cells formed only EVT upon spontaneous differentiation. Our findings suggest that distinct CTB states exist in different regions of the placenta as early as six weeks gestation and that current TSC lines most closely resemble ITGA5+ CTB, biased toward the EVT lineage.

Project description:Cytotrophoblast (CTB) are bipotent progenitor epithelial cells of the human placenta, which can differentiate into invasive extravillous trophoblast (EVT) and multinucleated syncytiotrophoblast (STB). Trophoblast stem cells (TSC) have also been shown to be bipotential. In this study, we set out to probe the transcriptional diversity of first trimester CTB and compare TSC to various subgroups of CTB. We performed single-cell RNA sequencing on six normal placentae, four 6-week placentae, two of which were separated into basal and chorionic fractions prior to sequencing, and two 13-week placentae. We also sequenced three TSC lines, derived from 6-8 week placentae, to evaluate similarities and differences between primary CTB and TSC. CTB clusters displayed notable distinctions based on gestational age, with 6-week placentae showing enrichment for specific CTB subtypes, further influenced by origin from the basal or chorionic plate. Differential expression analysis of CTB from basal versus chorionic plate highlighted pathways associated with proliferation, unfolded protein response, and oxidative phosphorylation. We identified trophoblast states representing initial progenitor CTB, precursor STB, precursor and mature EVT, and multiple CTB subtypes. CTB progenitors were enriched at 6-weeks, with basal plate cells biased toward EVT, and chorionic plate cells toward STB, precursors. Clustering and trajectory inference analysis indicated that TSC were most like EVT precursor cells, with only a small percentage of TSC on the pre-STB differentiation trajectory. This was confirmed by flow cytometric analysis of 6 different TSC lines, which showed uniform expression of proximal column markers ITGA2 and ITGA5. Additionally, we found that only ITGA5+ CTB could be plated in 2D, and these cells formed only EVT upon spontaneous differentiation. Our findings suggest that distinct CTB states exist in different regions of the placenta as early as six weeks gestation and that current TSC lines most closely resemble ITGA5+ CTB, biased toward the EVT lineage.

Project description:Cellular senescence is a permanent state of cell cycle arrest that protects the organism from tumorigenesis and regulates tissue integrity upon damage. Recently, several studies have shown that senescence plays a role in embryonic and placental development. Molecular markers of senescence are expressed in human syncytiotrophoblast, but the molecular mechanisms that govern senescence in these cells are not yet understood. To unravel the molecular mechanisms that mediate the impact of senescence on the placenta, we studied human syncytiotrophoblast in culture. We isolated cytotrophoblast cells from human term placentas. In culture, cytotrophoblast cells spontaneously differentiate into syncytium, creating the large multinucleated syncytiotrophoblast structure that can be monitored and studied for its molecular and cellular characteristics (Kliman et al., 1986; Li and Schust, 2015). We performed mRNA profiling on two human term placenta trophoblast cultures, at 1.5, 2, 3 and 5 days after seeding.

Project description:Trajectory modeling of first trimester placenta highlight differences between cytotrophoblast progenitors and trophoblast stem cells

Project description:During pregnancy, the placenta ensures multiple functions, which are directly involved in the initiation, fetal growth and outcome of gestation. The placental tissue involved in maternal-fetal exchanges and in synthesis of pregnancy hormones is the mononucleated villous cytotrophoblast (VCT) which aggregates and fuses to form and renew the syncytiotrophoblast (ST). Knowledge of the gene expression pattern specific to this endocrine and exchanges tissue of human placenta is of major importance to understand functions of this heterogeneous and complex tissue. Therefore, we undertook a global analysis of the gene expression profiles of primary cultured-VCT (n=6) and in vitro-differentiated-ST (n=5) in comparison with whole term placental tissue from which mononucleated VCT were isolated. A total of 880 differentially expressed genes (DEG) were observed between VCT/ST compared to whole placenta, and a total of 37 and 137 genes were significantly up and down-regulated, respectively, in VCT compared to ST. The 37 VCT-genes were involved in cellular processes (assembly, organization, and maintenance), whereas the 137 ST-genes were associated with lipid metabolism and cell morphology. In silico, all networks were linked to 3 transcriptional regulators (PPARγ, RARα and NR2F1) which are known to be essential for trophoblast differentiation. Furthermore, a subset of DEG were validated by RT-qPCR or by immunohistochemistry. To conclude, recognition of these pathways is fundamental to increase our understanding of the molecular basis of human trophoblast differentiation. The present study provides for the first time a gene expression signature of the VCT and ST compared to their originated term human placental tissue.

Project description:Human cytotrophoblast organoid cultures were established from the villous trophoblast of first trimester placentas. We analyzed the global expression profile of the cytotrophoblast organoids (CTB-ORG) and compared to the profile of the tissue of origin i.e. villous cytotrophoblast (vCTB) as well as to differentiated syncytiotrophoblast (STB) and placental fibroblasts (FIB).

Project description:Placenta derived Okae et al. human trophoblast stem cells cultured in Okae et al. conditions (ttps://doi.org/10.1016/j.stem.2017.11.004). In addition, we sequenced SHEF6 primed human pluripotent stem cells as a control. Individual cells were manually isolated with a mouth pipette and subjected to single-cell full-lengths transcriptome profiling using a modified version of Smart-Seq2.

Project description:Comparison of genes associated with the EMT between undifferentiated cytotrophoblast cells (CTB) and differentiated extravillous trophoblast cells (EVT) from third trimester human placenta. Cells isolated from control (placenta previa) and cases (preeclampsia). Cells isolated by immunomagnetic separation using anti-integrin beta4 antibody to purify CTB and anti-HLA-G antibody to purify EVT.