Collaboration leads to discovery of how ovarian egg cells may develop
When Lei Lei was an assistant professor at the University of Michigan studying the way germ cells—the precursors to human reproductive cells—form physical “bridges” that help determine their fate, she realized there were no wet-lab experiments that could yield convincing results.
So she turned to a senior member of the faculty, Santiago Schnell. Schnell, who is now William K. Warren Foundation Dean of the College of Science at the University of Notre Dame, is a computational biologist who at that time chaired the Department of Molecular & Integrative Physiology at the University of Michigan Medical School. Together, the research teams discovered a new molecular mechanism for how cells in ovaries, called oocytes, are made available for sustaining ovarian function during the development of fetal ovaries.
Their paper was published recently in Proceedings of the National Academy of Sciences.
“We wanted to see if the outcome on a larger scale matched the snapshot we saw in the lab,” said Lei, now an associate professor of obstetrics and gynecology at the University of Missouri School of Medicine, describing how the mathematical-based computer code contributed to the research: Schnell used his computational skills to help her determine that cell death inside fetal ovaries does not take place randomly.
“This is something we couldn’t do just by doing experiments,” Lei said.
In mammals, there is a large-scale “death” of germ cells in the ovaries of fetuses. This results in only a small proportion of those cells becoming oocytes. Lei’s lab discovered that the germ cells form branched cyst structures, where about 20 percent of the germ cells are connected by three or four physical bridges. In female cysts, the individual germ cells share cellular materials from their sister germ cells. The more connections they make, the better their chance of becoming an oocyte.
“Female cells are all about ‘nursing’ to make a few good oocytes,” Lei said, adding that with male cells, “if one saw something was wrong, the whole cyst structure would collapse.”
Schnell’s model was key to cementing the results Lei had seen. “His lab laid out a really nice computer program, and as we worked on this we found this is a beautiful, and not random process, with how cells decide their fate,” she said.
Other collaborators include first author Kanako Ikami, who was Lei’s postdoctoral researcher and is now at the University of California, Davis; Suzanne Shoffner-Beck, at University of Michigan; Malgorzata Tyczynska Weh, now at the University of South Florida; Shoshei Yoshida, of the School of Life Science in Kanagawa, Japan; and Edgar Andres Diaz Miranda and Sooah Ko, both of the University of Missouri School of Medicine.
Lei appreciates working collaboratively and noted that all areas of the research for this paper took different skill sets, but in working together they can achieve a broader goal.
“Today, science addresses incredibly complex questions conducting research collaboratively,” Schnell said. “Team science is leading to scientific discoveries that wouldn’t have been possible otherwise, resulting in greater scientific impact, innovation and productivity than the single investigator approaches.”
Originally published by science.nd.edu on June 05, 2023.
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