Pregnancy success in mice requires appropriate cannabinoid receptor signaling for primary decidua formation

With implantation, mouse stromal cells begin to transform into epithelial-like cells surrounding the implantation chamber forming an avascular zone called the primary decidual zone (PDZ). In the mouse, the PDZ forms a transient, size-dependent permeable barrier to protect the embryo from maternal ci...

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Bibliographic Details
Published in:eLife 2020-09, Vol.9
Main Authors: Li, Yingju, Dewar, Amanda, Kim, Yeon Sun, Dey, Sudhansu K, Sun, Xiaofei
Format: Article
Language:English
Subjects:
Animals
CB1
CB2
Decidua - growth & development
decidualization
Developmental Biology
Embryo Implantation - physiology
Embryonic development
endocannabinoid
Endothelial Cells - metabolism
Female
Macrophages
Mice
Pregnancy
Pregnancy, Animal - physiology
Pregnant women
primary decidual zone
Receptors, Cannabinoid - physiology
Signal Transduction - genetics
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Summary:With implantation, mouse stromal cells begin to transform into epithelial-like cells surrounding the implantation chamber forming an avascular zone called the primary decidual zone (PDZ). In the mouse, the PDZ forms a transient, size-dependent permeable barrier to protect the embryo from maternal circulating harmful agents. The process of decidualization is critical for pregnancy maintenance in mice and humans. Mice deficient in cannabinoid receptors, CB1 and CB2, show compromised PDZ with dysregulated angiogenic factors, resulting in the retention of blood vessels and macrophages. This phenotype is replicated in but not in mice. In vitro decidualization models suggest that levels substantially increase in mouse and human decidualizing stromal cells, and that neutralization of CB1 signaling suppresses decidualization and misregulates angiogenic factors. Taken together, we propose that implantation quality depends on appropriate angiogenic events driven by the integration of CB2 in endothelial cells and CB1 in decidual cells.
ISSN:2050-084X
2050-084X
DOI:10.7554/ELIFE.61762