Artificial mouse embryos like real
London: Scientists have successfully created artifical mouse embryos in lab using a 3D scaffold and the body’s master stem cells, an advance that may explain why more than two out of three human pregnancies fail. Once a mammalian egg has been fertilised by a sperm, it divides multiple times to generate a small, free-floating ball of stem cells.
The particular stem cells that will eventually make the future body, the embryonic stem cells (ESCs) cluster together inside the embryo towards one end: this stage of development is known as the blastocyst.
The other two types of stem cell in the blastocyst are the extra-embryonic trophoblast stem cells (TSCs), which will form the placenta; and primitive endoderm stem cells that will form the so-called yolk sac, ensuring that the foetus’s organs develop properly and providing essential nutrients.
Previous attempts to grow embryo-like structures using only ESCs have had limited success.
This is because early embryo development requires the different types of cell to coordinate closely with each other.
Researchers from the University of Cambridge in the UK used a combination of genetically-modified mouse ESCs and TSCs, together with a 3D scaffold known as an extracellular matrix, they were able to grow a structure capable of assembling itself and whose development and architecture very closely resembled the natural embryo.
“Both the embryonic and extra-embryonic cells start to talk to each other and become organised into a structure that looks like and behaves like an embryo,” said Magdalena ZernickaGoetz from Cambridge, who led the research.
Both the embryonic and extra-embryonic cells start to talk to each other and become organised into a structure that looks like and behaves like an embryo —Magdalena Zernicka-Goetz, Researcher