Hemogenic endothelium (HE) is recognized as the origin of all definitive blood cells, including hematopoietic stem cells (HSCs); however, the mechanisms governing the hematopoietic progenitor versus HSC fate choice within the HE remain unknown. Here we combine differentiation assays with full-length single-cell transcriptome data for extra-embryonic yolk sac (YS) and intra-embryonic aorta–gonad–mesonephros (AGM) region HE populations. We identified and localized three differentiation trajectories, each containing a distinct HE subset: erythromyeloid progenitor-primed HE in the YS plexus, lymphomyeloid progenitor-primed HE in large YS arteries and hematopoietic stem and progenitor cell-primed HE in the AGM. Chromatin modifiers and spliceosome components were enriched in AGM HE. This correlated with a higher isoform complexity of the AGM HE transcriptome. Distinct AGM HE-specific isoform expression patterns were observed for a broad range of genes, including stemness-associated factors like Runx1. Our data form a unique resource for studying cell fate decisions in different HE populations.
Neo, W., Fadlullah, M., Bhatnagar, H., Barone, C., Quattrini, G., Timòteo Ferreira, F., et al. (2025). Single-cell profiling reveals three endothelial-to-hematopoietic transitions with divergent isoform expression landscapes. NATURE CARDIOVASCULAR RESEARCH [10.1038/s44161-025-00740-z].
Single-cell profiling reveals three endothelial-to-hematopoietic transitions with divergent isoform expression landscapes
Barone, Cristiana;Quattrini, Giulia;Timòteo Ferreira, Filipa;Sala, Gianluca;Azzoni, Emanuele;
2025
Abstract
Hemogenic endothelium (HE) is recognized as the origin of all definitive blood cells, including hematopoietic stem cells (HSCs); however, the mechanisms governing the hematopoietic progenitor versus HSC fate choice within the HE remain unknown. Here we combine differentiation assays with full-length single-cell transcriptome data for extra-embryonic yolk sac (YS) and intra-embryonic aorta–gonad–mesonephros (AGM) region HE populations. We identified and localized three differentiation trajectories, each containing a distinct HE subset: erythromyeloid progenitor-primed HE in the YS plexus, lymphomyeloid progenitor-primed HE in large YS arteries and hematopoietic stem and progenitor cell-primed HE in the AGM. Chromatin modifiers and spliceosome components were enriched in AGM HE. This correlated with a higher isoform complexity of the AGM HE transcriptome. Distinct AGM HE-specific isoform expression patterns were observed for a broad range of genes, including stemness-associated factors like Runx1. Our data form a unique resource for studying cell fate decisions in different HE populations.
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