C. Neil scite author profile

A major goal of regenerative medicine is to instruct formation of multipotent, tissue-specific stem cells from induced pluripotent stem cells (iPSCs) for cell replacement therapies. Generation of hematopoietic stem cells (HSCs) from iPSCs or embryonic stem cells (ESCs) is not currently possible, however, necessitating a better understanding of how HSCs normally arise during embryonic development. We previously showed that hematopoiesis occurs through four distinct waves during zebrafish development, with HSCs arising in the final wave in close association with the dorsal aorta. Recent reports have suggested that murine HSCs derive from hemogenic endothelial cells (ECs) lining the aortic floor1,2. Additional in vitro studies have similarly suggested that the hematopoietic progeny of ESCs arise through intermediates with endothelial potential3,4. In this report, we have utilized the unique strengths of the zebrafish embryo to image directly the birth of HSCs from the ventral wall of the dorsal aorta. Utilizing combinations of fluorescent reporter transgenes, confocal timelapse microscopy and flow cytometry, we have identified and isolated the stepwise intermediates as aortic hemogenic endothelium transitions to nascent HSCs. Finally, using a permanent lineage tracing strategy, we demonstrate that the HSCs generated from hemogenic endothelium are the lineal founders of the adult hematopoietic system.

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Epigenomic Analysis of Multilineage Differentiation of Human Embryonic Stem Cells

Xie

Schultz

Lister

et al. 2013

Cell

706

757

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SUMMARY Epigenetic mechanisms have been proposed to play crucial roles in mammalian development, but their precise functions are only partially understood. To investigate epigenetic regulation of embryonic development, we differentiated human embryonic stem cells into mesendoderm, neural progenitor cells, trophoblast-like cells, and mesenchymal stem cells, and systematically characterized DNA methylation, chromatin modifications, and the transcriptome in each lineage. We found that promoters that are active in early developmental stages tend to be CG rich and mainly engage H3K27me3 upon silencing in non-expressing lineages. By contrast, promoters for genes expressed preferentially at later stages are often CG poor and primarily employ DNA methylation upon repression. Interestingly, the early developmental regulatory genes are often located in large genomic domains that are generally devoid of DNA methylation in most lineages, which we termed DNA methylation valleys (DMVs). Our results suggest that distinct epigenetic mechanisms regulate early and late stages of ES cell differentiation.

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ccbe1 is required for embryonic lymphangiogenesis and venous sprouting

et al. 2009

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Lymphatic vessels have important roles in fluid homeostasis, fat absorption, inflammation and cancer metastasis and develop in a dynamic process (called lymphangiogenesis) involving budding, migration and proliferation of lymphangioblasts. Using a genetic screen in zebrafish we identify ccbe1 (collagen and calcium-binding EGF domain-1) as indispensible for embryonic lymphangiogenesis. Ccbe1 acts at the same stage of development as Vegfc and is required for lymphangioblast budding and angiogenic sprouting from venous endothelium.

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C. Neil

Haematopoietic stem cells derive directly from aortic endothelium during development

Epigenomic Analysis of Multilineage Differentiation of Human Embryonic Stem Cells

ccbe1 is required for embryonic lymphangiogenesis and venous sprouting

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