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Protein Essential for Fertilization Discovered

Thu, 04/17/2014 - 1:06pm
Researchers at the Wellcome Trust Sanger Institute have discovered interacting proteins on the surface of the sperm and the egg essential to begin mammalian life. These proteins, which allow the sperm and egg to recognize one another, offer new paths towards improved fertility treatments and the development of new contraceptives.
 
Fertilization occurs when an egg and a sperm recognize each other and fuse together to form an embryo. The Izumo protein displayed on the sperm that recognizes the egg was identified in 2005 by Japanese researchers who named it Izumo, after a Japanese marriage shrine, but its mate on the egg has remained a mystery. That is until now.
 
The team identified a single protein that paired with Izumo and is necessary for fertilization. The protein is named Juno after the Roman Goddess of fertility and marriage.
 
 
"We have solved a long-standing mystery in biology by identifying the molecules displayed on the sperm and egg which must bind each other at the moment we were conceived," said Dr. Gavin Wright, senior author from the Sanger Institute. "Without this essential interaction, fertilization just cannot happen. We may be able to use this discovery to improve fertility treatments and develop new contraceptives."
 
The scientists created an artificial version of the Izumo protein and used this to identify binding partners on the surface of the egg. Using this approach, they discovered that Izumo on the sperm interacted with Juno on the surface of the egg to initiate fertilization.
 
The team developed mice that lacked the Juno protein on the surface of their eggs. These mice were infertile and their eggs did not fuse with normal sperm, highlighting that the Juno protein is essential for fertility in female mice. In the same way, male mice lacking the Izumo protein are also infertile, highlighting its essential role in male fertility.
 
"The Izumo-Juno pairing is the first known essential interaction for sperm-egg recognition in any organism," said Dr. Enrica Bianchi, first author from the Wellcome Trust Sanger Institute. "The binding of the two proteins is very weak, which probably explains why this has remained a mystery until now."
 
"Previous work in the laboratory led us to expect the interaction to be weak, and this then guided the design of our experiments, and, after a lot of effort, it finally worked," Bianchi said.
 
The team found that after the initial fertilization step, there is a sudden loss of the Juno protein from the surface of the egg, becoming virtually undetectable after just 40 minutes. This may explain why the egg, once fertilized by the first sperm cell, shuts down its ability to recognize further sperm. This prevents the formation of embryos with more than one sperm cell that would otherwise have too many chromosomes and die.
 
The team is now screening infertile women to understand whether defects in the Juno receptor are a cause of infertility. If it is, then a simple genetic screening test could help inform the appropriate treatment for women struggling to conceive naturally by reducing the expense and stress often involved in assisted fertility treatments.
 
 

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