The role of the human yolk sac in supporting early embryonic development and the first wave of the prenatal immune system has been mapped in a study published today (17 August) in Science.
Researchers from the Wellcome Sanger Institute, Newcastle University, Cambridge Stem Cell Institute and collaborators discovered that the yolk sac has multiple organ functions—it acts like the liver to get rid of toxins and to make coagulation factors, as well as producing a key hormone—erythropoietin (which stimulates red blood cell production) that is normally produced by the kidney in an adult.
It also provides the functions performed by bone marrow before it is formed during early development. The study also shines a light on how blood and immune cells are produced within the yolk sac for the first time.
The yolk sac is externally connected to the embryo and develops within the uterus during the first weeks of pregnancy. It is vital for providing nutritional and metabolic support to the developing embryo.
This study is part of the international Human Cell Atlas (HCA) initiative, which is mapping every cell type in the human body across the human lifespan, to transform our understanding of health and disease.
The work analyzed 10 yolk sac samples and integrated external datasets enabling researchers to look at over 169,000 cells, spanning four to eight weeks after conception. By using cutting-edge single-cell sequencing, and whole organ imaging of the human yolk sac, the researchers obtained a picture of the very start of the development of the immune system. This work is the final publication of a trilogy of papers that completes the analysis of immune system formation during gestation in three sites across the developing body (in the yolk sac, liver and bone marrow).
Many childhood diseases, such as leukemias, have their origins in the early development of the immune system. However, most of what we know about early immune development has been inferred from animal studies, mostly in mice. Difficulty in accessing samples has hindered development studies in the past, restricting our understanding of the prenatal immune system.
The work presented today also uncovers a major finding—a new, accelerated way of producing macrophages very early in development. Researchers mapped how the first blood-producing stem cells emerge from blood vessel linings of the yolk sac. These stem cells produce different types of blood and immune cells in waves in the yolk sac and also make specialized immune cells called macrophages in an entirely different way from how they are made in adult life.
The macrophage development pathway appears unique to the early embryo—a rapid and direct route to get the cells the body needs. In contrast, later during development and in adult life stem cells make monocytes (an intermediate cell stage) which then transform into macrophages.
This finding could open the door to new and improved production of engineered macrophages with unique tissue-forming properties, which have many therapeutic applications, such as in regenerative medicine to heal wounds and in degenerative brain diseases such as Alzheimer’s disease.
“This is the first time that the yolk sac has been profiled at a single cell level, giving us an incredible amount of information on how this primary organ works in the first stages of human development. It has given us novel insights into the earliest blood and immune cells we make, building on the work uncovered in previous studies from the Human Cell Atlas. We did not know that the yolk sac had these functions until now,” says Issac Goh.
“It’s exciting to think of the possibilities stemming from this work, from new ways of artificially engineering cells in the lab to a better understanding of disease early on during pregnancy,” says Dr. Rachel Botting.
“Creating a comprehensive Human Atlas of blood and immune cell development in early life is an essential foundation to understanding what goes wrong in a wide range of diseases,” says Dr. Laura Jardine.
“Mapping out how the yolk sac evolves during these first weeks of pregnancy is fundamental to the understanding of the development of the immune system. This is the first time that we show the multiple organ functions of the yolk sac—we’ve seen a relay from the yolk sac to the liver, to the bone marrow.
“We’ve also discovered ways of learning how to produce cells that are different to those we produce in adult life. It means that cellular engineering doesn’t always have to follow the same method. Here’s another recipe that gets you there faster,” says Professor Muzlifah Haniffa.
More information:
Issac Goh et al, Yolk sac cell atlas reveals multiorgan functions during human early development, Science (2023). DOI: 10.1126/science.add7564
Provided by
Wellcome Trust Sanger Institute
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Multiple organ functions of the yolk sac revealed by early human development map (2023, August 18)
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