Distinct transcriptional and epigenomic programs define Hofbauer cells in term placenta
Benjámin R. Baráth, Dóra Bojcsuk, Krisztian Bene, Noemí Caballero-Sánchez, Tímea Cseh, João CR. de Freitas, Petros Tzerpos, Marta Toth, Zhonghua Tang, Seth Guller, Zoárd Tibor Krasznai, Patrícia Neuperger, Gabor J. Szebeni, Gergely Nagy, Tamás Deli, Laszlo Nagy
Benjámin R. Baráth, Dóra Bojcsuk, Krisztian Bene, Noemí Caballero-Sánchez, Tímea Cseh, João CR. de Freitas, Petros Tzerpos, Marta Toth, Zhonghua Tang, Seth Guller, Zoárd Tibor Krasznai, Patrícia Neuperger, Gabor J. Szebeni, Gergely Nagy, Tamás Deli, Laszlo Nagy
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Research Article Immunology Reproductive biology

Distinct transcriptional and epigenomic programs define Hofbauer cells in term placenta

Abstract

Hofbauer cells (HBCs) are fetal macrophages located in the placenta that contribute to antimicrobial defense, angiogenesis, tissue remodeling, and metabolic processes within the chorionic villi. Although their roles in placental biology are increasingly recognized, the mechanisms that regulate HBC identity and function are not yet fully defined. This study aimed to define the core transcriptomic and epigenomic features of HBCs in term placentas and to examine their capacity for transcriptional responsiveness and phenotypic variation. Using chromatin accessibility profiling and bulk RNA-seq, we found that HBCs exhibit a unique gene expression and chromatin accessibility profile compared with other fetal and adult macrophages. We identified a coordinated transcriptional network involving nuclear receptors (NRs) NR4A1–3, the glucocorticoid receptor, and RFX family members (RFX1, RFX2, RFX5) that appears to shape HBC identity, particularly through pathways linked to lipid metabolism and angiogenesis. Although exploratory in nature, in vitro stimulation studies showed that HBCs exhibited increased transcriptional activity in response to combined IL-4 and rosiglitazone treatment, including induction of the lipid transporter CD36. Mass cytometry analysis revealed surface markers indicative of both immature and mature macrophage states. These results together indicate that HBCs are a distinct and diverse population of macrophages with a specialized, adaptable regulatory program in the human placenta.

Authors

Benjámin R. Baráth, Dóra Bojcsuk, Krisztian Bene, Noemí Caballero-Sánchez, Tímea Cseh, João CR. de Freitas, Petros Tzerpos, Marta Toth, Zhonghua Tang, Seth Guller, Zoárd Tibor Krasznai, Patrícia Neuperger, Gabor J. Szebeni, Gergely Nagy, Tamás Deli, Laszlo Nagy

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Figure 2

Comparative transcriptomic profiling of HBCs.

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Comparative transcriptomic profiling of HBCs. (A) The multidimensional s...
(A) The multidimensional scaling plot represents the Euclidean distances between the gene expression patterns of the 8 cell types indicated and also between their replicates. (B) The heatmap shows the average normalized gene expression of the top 30 macrophage-specific transcription factor–coding genes and the CSF1R gene in the 8 cell types. (C) Scatterplots showing normalized gene expression values (FPKM) for HBC marker genes, including CD163, CD68, MRC1, and FOLR2 across 8 cell types. Points represent individual replicates; horizontal bars indicate the mean, and error bars represent SD. (D) The row-normalized, clustered heatmap represents the cell subtype–specific (P ≤ 0.05; fold difference ≥ 2) average of the normalized gene expression patterns and the non-DEGs between them. DEGs, differentially expressed genes. (E) The heatmap represents the average normalized expression of the top 20 HBC-specific marker genes. The corresponding FPKM scale is shown at the lower left corner of the heatmap. KC, Kupffer cell; MDM, monocyte-derived macrophage; AM, alveolar macrophage; aMG, adult microglia; fMG, fetal microglia; fLM, fetal liver macrophage; MoOC, mononuclear osteoclast; MuOC, multinucleated osteoclast; OCP, osteoclast precursor; SpM, spleen macrophage; IM, intestinal macrophage; SkM, skin macrophage; SMo, spleen monocyte; BMo, blood monocyte; CBMo, cord blood monocyte.