A collaboration between research groups has identified a mechanism by which embryonic cells organize themselves to send signals to surrounding cells, telling them where to go and what to do. While these signaling centers have been known to science for a while, how individual cells turn into organizers has been something of a mystery.
Until now. In a paper published in the journal Nature Cell Biology, the researchers find that cells are literally pressed into becoming organizers.
“We were able to use microdroplet techniques to figure out how the buildup of mechanical pressure affects organ formation,” said co-corresponding author.
Finding out how cells decide to become organizers during the formation of organs remains a central challenge in the study of embryogenesis, and is key to understanding embryonic development.
“By understanding how an embryo forms organs, we can start to ask questions about what goes wrong in children born with congenital malformations,” said a fellow co-author.
Building on techniques previously developed, in which minute droplets inserted between developing embryonic cells sense the forces exerted by cells on each other, and through observations of an embryonic incisor tooth, the researchers found that pressure influences a cell’s fate — they feel the squeeze and use this information to organize themselves.
“It’s like those toys that absorb water and grow in size,” said a co-lead author of the study. “Just imagine that happening in a confined space. What happens in the incisor knot is that the cells multiply in number in a fixed space and this causes a pressure to build up at the center, which then becomes a cluster of specialized cells.” The researchers found that the cells feeling the stronger pressure stop growing and start sending signals to organize the other surrounding cells in the tooth.
Embryos use several of these signaling centers to guide cells as they form tissues and organs. Cells around these centers receive stronger or weaker signals depending on their location, and they make decisions accordingly. Like building skyscrapers or bridges, sculpting our organs involves tight planning, a lot of coordination and the right structural mechanics. Failure in any of these processes can be catastrophic when it comes to building a bridge, and it can also be damaging for us when growing in the womb.
“This work may lead to additional research into how birth defects are formed and can be prevented,” the author remarked.
Seeing how pressure works in embryonic development opens up further research possibilities, according to the author.
“It is really exciting that pressure has a role in establishing signaling centers,” the author said. “It will be interesting to see if or how mechanical pressure affects other important developmental processes.”
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