Structures that resemble early embryos have been developed in a dish from mouse stem cells, reports a paper published in this week’s Nature. When transferred in utero, the cell spheres trigger remodelling events similar to those seen at the moment of implantation on the uterine wall. Although they do not develop into mature embryos, they provide researchers with a cell-culture model of early development and shed light on key processes that underpin this pivotal period of life.
A few days after a mammalian egg has been fertilized, it develops into a blastocyst. This is a spherical structure made up of an external cell layer surrounding a fluid-filled cavity that contains a mass of embryonic cells. Stem-cell cell lines have been obtained from both the external layer and from embryonic cells before, but Nicolas Rivron and colleagues show that both cell types can interact in vitro to form blastocyst-like structures they call ‘blastoids’.
The blastoids are similar in shape to a 3.5-day-old blastocyst, and display similar patterns of gene activity. Like blastocysts, they form when signals emanating from the inner mass of embryonic stem cells induce the development of the external cell layer. In normal development, this external layer would go on to form the placenta, so the researchers hope that their model will help us to understand how the placenta forms and how the embryo implants into the lining of the uterus.
Microbiology: Single switch makes Escherichia coli beneficial insect partnerNature Microbiology
Conservation: More than half of unassessable species may be at risk of extinctionCommunications Biology
Zoology: Mother’s iron helps Weddell seal pups diveNature Communications
Health: Certain medications may impact risk of heat-related heart attacksNature Cardiovascular Research