Project description:Tissue-resident macrophage Hofbauer cells (HB cells) play a central role in maintaining placental tissue integrity and homeostasis. HB cells are responsible for fetal immune functions and contribute to angiogenesis, regeneration, and metabolism of chorionic villi. All of these roles have a major impact on the course and outcome of pregnancy through the performance of placental functions. In this study, we sought answers to the following questions: what are the regulatory mechanisms that ensure the specific gene expression of these cells? Are there subgroups within the population of HB cells that were previously thought to be homogeneous? Are HB cells programmable? To answer these questions, Hofbauer cells were isolated from placental villous tissue using enzymatic digestion, gradient-based centrifugation, and both negative and positive immunopurification. ATAC-seq, bulk RNA-seq, in vitro stimulation studies, re-analysis of bulk and single-cell RNA sequencing, and CyTOF were used to assess chromatin accessibility, gene expression regulation, programmability, and heterogeneity of human HB cells. Using these approaches, we found that compared to other adult and fetal macrophages, HB cells have a unique transcriptional regulatory profile that is regulated by the transcription factor-coding NR4A2, NR4A3, GR, and RFX genes. In addition, HB cells showed unique gene expression changes upon stimulation with IL-4 and the PPAR agonist Rosiglitazone. Based on the re-analysis of single-cell RNA-seq data from the first-trimester fetal-maternal interface and CyTOF analysis of our isolates, heterogeneous HB cell subpopulations were identified based on either gene or marker protein expression.

Project description:Maternal immune activation is associated with adverse offspring neurodevelopmental outcomes, many mediated by in utero microglial programming. As microglia remain inaccessible throughout development, identification of noninvasive biomarkers reflecting fetal brain microglial programming could permit screening and intervention. We used lineage tracing to demonstrate the shared ontogeny between fetal brain macrophages (microglia) and fetal placental macrophages (Hofbauer cells) in a mouse model of maternal diet-induced obesity, and single-cell RNA-seq to demonstrate shared transcriptional programs. Comparison with human datasets demonstrated conservation of placental resident macrophage signatures between mice and humans. Single-cell RNA-seq identified common alterations in fetal microglial and Hofbauer cell gene expression induced by maternal obesity, as well as sex differences in these alterations. We propose that Hofbauer cells, which are easily accessible at birth, provide novel insights into fetal brain microglial programs, and may facilitate the early identification of offspring vulnerable to neurodevelopmental disorders in the setting of maternal exposures.

Project description:Bacterial and viral infections of the placenta are associated with inflammation and adverse pregnancy outcomes. Hofbauer cells (HBCs) are specialised fetal-origin macrophages in the placental villi and are proposed to protect the fetus from vertical transmission of pathogens; however, they are poorly understood. Here, we have performed quantitative proteomics on term HBCs under resting conditions and following exposure to bacterial and viral pathogen associated molecular patterns (PAMPs), and investigated the contribution of fetal sex to these responses. Resting HBCs expressed a plethora of proteins pertinent to macrophage function, including chemokines, cytokines, Toll-like receptors, and classical and non-classical major histocompatibility complex class I and II molecules. HBCs mounted divergent responses to bacterial versus viral PAMPs but exhibited protein expression changes suggestive of a switch towards a more pro-inflammatory phenotype. A comparison between male and female HBCs, showed that the latter mounted a much stronger and wider response. Sexual dimorphism in HBCs was primarily associated with lipid metabolism in males and cytoskeleton organisation in females. We provide a novel and comprehensive understanding regarding the phenotype of term placental macrophages and their sex-dependent responses to infectious triggers.

Project description:This study involves the isolation of Hofbauer cells from human placental tissue at different gestation periods and their infection with HIV, CMV, and ZIKV. The transcriptomic profiles of these infected cells were analyzed using RNA-sequencing to identify differentially expressed genes and pathways.

Project description:Maternal and fetal monocytes and tissue macrophages (decidual macrophages, Hofbauer cells) at the feto-maternal interface have different methylome. Paired and balanced design. We compared maternal blood monocytes (MB) vs. cord blood monocytes (CB), maternal blood monocytes (MB) vs. decidual macrophages (Deci), cord blood monocytes (CB) vs placental macrophages (villi) and decidual macrophages (Deci) vs. placental macrophages (villi).

Project description:Pregnant women are highly susceptible to infection by the bacterial pathogen Listeria monocytogenes leading to miscarriage, premature birth, and neonatal infection. It is thought that L. monocytogenes breaches the placental barrier by infecting trophoblasts at the maternal interface. However, the fate of L. monocytogenes within the chorionic villi and how infection reaches the fetus are unsettled. Hofbauer cells (HBCs) are fetal placental macrophages and the only leukocytes residing in healthy chorionic villi, forming a last immune barrier protecting fetal blood from infection. Little is known about HBCs’ antimicrobial responses to pathogens. Here, we present the first study of L. monocytogenes interactions with human HBCs isolated from healthy term placentas. Control untreated (5 h and 24 h) HBCs, 24 h LPS/IFNgamma-stimulated, and 5 h and 24 h L. monocytogenes-infected HBCs, were lysed with TRIzol. RNA was isolated followed by on-column DNase treatment and ribo-depletion. RNA-seq libraries were made, pooled, and sequenced on an Illumina NovaSeq SP flow cell in paired-end 150 bp format to a read yield between 70 – 80 million reads (equivalent to 35 – 40 million clusters). The RNA-seq data analysis showed that HBCs undergo pro-inflammatory reprogramming upon L. monocytogenes infection and following stimulation by the potent M1-polarizing agents LPS/IFNgamma. Of particular interest, infected HBCs also upregulated genes encoding numerous pro-inflammatory chemokines known to promote placental infiltration by maternal leukocytes. However, HBCs maintained expression of a collection of tolerogenic genes accompanied by secretion of tolerogenic cytokines, consistent with their tissue homeostatic role in prevention of fetal rejection.

Project description:Background: DNA methylation (DNAm) profiling has emerged as a powerful tool for characterizing the placental methylome. However, previous studies have focused primarily on whole placental tissue, which is a mixture of epigenetically distinct cell populations. Here, we present the first methylome-wide analysis of first trimester (n=9) and term (n=19) human placental samples of four cell populations: trophoblasts, Hofbauer cells, endothelial cells, and stromal cells, using the Illumina EPIC methylation array, which quantifies DNAm at >850,000 CpGs. Results: The most distinct DNAm profiles were those of placental trophoblasts, which are central to many pregnancy-essential functions, and Hofbauer cells, which are a rare fetal-derived macrophage population. Cell-specific DNAm occurs at functionally-relevant genes, including genes associated with placental development and preeclampsia. Known placental-specific methylation marks, such as those associated with genomic imprinting, repetitive element hypomethylation, and placental partially methylated domains, were found to be more pronounced in trophoblasts and often absent in Hofbauer cells. Lastly, we characterize the cell composition and cell-specific DNAm dynamics across gestation. Conclusions: Our results provide a comprehensive analysis of DNAm in human placental cell types from first trimester and term pregnancies. This data will serve as a useful DNAm reference for future placental studies, and we provide access to this data via download from dbGAP (phs002013.v1.p1), through interactive exploration from the web browser (https://robinsonlab.shinyapps.io/Placental_Methylome_Browser/), and through the R package planet, which allows estimation of cell composition directly from placental DNAm data.

Project description:Transcriptomic Analysis of Hofbauer Cells from Human Placental Tissue Infected with HIV, CMV, and ZIKV

Project description:Hofbauer cells and fetal brain microglia share transcriptional profiles and responses to maternal diet-induced obesity

Project description:We developed hepatic organoids (HOs) from embryonic stem cells (ESCs) through a de novo induction protocol, mimicking the stages of fetal liver development: ESCs to definitive endoderm (DE), then to foregut (FG), hepatoblasts (HB), and finally to HOs stage 1 (HO1), culminating in self-organizing HOs stage 2 (HO2) via dissociation and re-inoculation. Comprehensive transcriptomic and proteomic sequencing and analysis were conducted on FG, HB, HO1, and HO2.