Cell communication study may spur medical advances


Tiffany Lee, February 4, 2019 | View original publication

Cell communication study may spur medical advances

A team of Nebraska engineers is hoping its cell-stretching research will lead to new understandings of how cells react to mechanical stimuli so that those expanded pathways might someday aid in fighting cancer and healing wounds.

The three-year, $439,584 grant from the National Science Foundation will allow a team led by Ruiguo Yang and Jung Yul Lim to also work on understanding how linked individual cells communicate with each other as they respond to physical changes in their shared environment.

Yang, assistant professor of mechanical and materials engineering, said the data they have shows the cells “can talk to each other,” and that there may be a mechanism that facilitates that communication.

“We’re not sure how they do it, but they do talk,” Yang said. “Finding that sensor that triggers everything, that sets off the chain reaction that results in cell migration, we are very eager to find out where it is, what it is, or even if there’s nothing there.

“How smart are the cells to be able to tell each other that another cell is being compromised and needs to be strengthened so the group of cells, like tissue, doesn’t lose its integrity. From the rationale and the solid data we have, the possibility of something making a cell able to translate mechanical information to its own physical responses is very large, 80 to 90 percent.”

The general field is mechanobiology, which is basically the understanding of biology from a mechanical or physical perspective, especially how physical forces and changes in the mechanical properties of cells and tissues contribute to their development, cell differentiation, physiology and diseases.

Much of the work in that field — including research done by Lim, an associate professor of mechanical and materials engineering — has focused on how large groups of cells, especially in the form of a monolayer, react when they are strained, stretched or in some other way manipulated.

“The development of cell-cell adhesion interrogation device by Dr. Yang is highly innovative,” Lim said. “This may potentially provide unprecedented information on cell-cell junction mechanics and related mechanobiology, which could not be obtained thus far in the traditional cell layer stretching setup.”

This team is concerned with the cellular responses generated when those same mechanical inputs are applied to a linked pair of individual cells. These processes a cell goes through to create those responses is known as mechanotransduction, and understanding that could have implications to everyday medicine, Yang said.

Yang said cancer and pemphigus vulgaris, a potentially fatal autoimmune disease that causes painful blistering on the skin and mucous membranes in humans, spread through the body and attack healthy tissues by breaking links between individual cells.

Typically, scientists have sought ways to treat those types of diseases with an immunology approach. Yang said mechanobiological solutions, such as introducing drugs or cellular mutations that might protect those linkages, is a relatively new approach that offers hope.

“These single cell pairs are very spring-like,” Yang said. “When they are stretched, they are like a spiral telephone cord — they expand and create a greater surface area that is exposed where other things can rush in. If we introduce elements that will help to strengthen those bonds, perhaps we can make it less likely for these diseases to spread.”

It could also speed the process of the body recovering from wounds or surgeries through fostering the cell migration that typically takes place in those instances. Yang said individual cells work as teammates as they navigate a path to the injured area to being the healing process, sort of like playing Follow the Leader.

“This process is more biophysical than biochemical,” Yang said. “It’s physics and the force and balance in these single pair cells shows the force and balance between the leader cells and the followers in migration through the substrate. It’s a physical reaction and processing feedback or data.”

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