Researchers prove mathematical models can predict cellular processes

Researchers prove mathematical models can predict cellular processes
Understanding cell transformation can help clinical researchers tackle medical problems. The images show how a growth factor caused cells to change forms and regroup from tight packs of epithelial cells to more mobile, loose arrays of mesenchymal cells -- information useful for studying cancer and wound healing. Credit: Jingyu Zhang.

How does a normal cellular process derail and become unhealthy? A multi-institutional, international team led by Virginia Tech researchers studied cells found in breast and other types of connective tissue and discovered new information about cell transitions that take place during wound healing and cancer. 

The results were published in a September issue of the journal Science Signaling.

During development, cells change forms and regroup from tight packs of to more mobile, loose arrays of .

The cell changes, known as an epithelial to mesenchymal transition, or EMT, are normal and helpful during , but problematic when spread from the primary tumor site to other sites in the body.

To investigate, researchers developed mathematical models to predict the dynamics of cell transitions, and compared their results with actual measurements of activity in cell populations. As a result, they gained new understanding of how a substance known as transforming growth factor triggers cell transformations.

"Understanding this process is very important to prevent and treat many developmental abnormalities and cancer metastasis," said Jianhua Xing, an associate professor of in the College of Science and a Fralin Life Science Institute affiliate.

Jingyu Zhang of Shandong, China, a graduate student in biological sciences in the College of Science, also from Xing's lab, performed the cell experiments under the guidance of Drs Jianhua Xing and Elankumaran Subbiah, an associate professor of virology in the Virginia-Maryland College of Veterinary Medicine.

Xiao-Jun Tian, a postdoctoral researcher in Xing's lab, performed computational analyses.

These researchers found that EMT in the cells "involves a number of double-negative feedback loops functioning as switches," said Zhang. "EMT takes place by sequentially turning on these switches."

Xing explained that the theoretical prediction and experimental studies together confirmed this sequential bistable switch mechanism. 

"Many theoretical mathematical models existed to explain the EMT mechanisms," Subbiah said, "but, no conclusive experimental proof was available until now to support these models."  


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Journal information: Science Signaling

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