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Pitt physicists break down how cells communicate

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  • Innovation and Research
  • Graduate and professional students
  • Kenneth P. Dietrich School of Arts and Sciences

Teams need to talk to each other to work together, but for the tiniest cooperators, too much communication may not be a good thing. New research from a group including Pitt physicists shows that both too little and too much communication can hinder how cells respond to their environment. The results may have implications for understanding how groups of cells, from collections of amoeba to the those that govern the rhythm of your heart, unite to get jobs done.

鈥淐ells need to work together to perform complex tasks 鈥 that can include synchronizing together, performing a function all at once,鈥 said (pictured left), co-lead author of the paper and a physics PhD student in the Kenneth P. Dietrich School of Arts and Sciences. 鈥淵ou would think that the better they can communicate with each other, the more they鈥檇 become more synchronized. But that鈥檚 not quite true.鈥

While scientists have extensively studied the way some types of brain cells learn as a group, the same isn鈥檛 true of cells that lack the ability to make complex, specialized connections to one another. And yet in many cases, even these simpler cells manage to coordinate in response to their environment.

To study this coordi91porn视频, Pitt researchers worked with colleagues at Oregon State University to put together a simplified system where they could study a kind of brain cell that communicates with chemicals in a simpler way, resembling single-celled organisms and the cells that make up the rest of our bodies.

Sketching out how the network of these cells behave revealed an optimal amount of communication 鈥 not too much, and not too little 鈥 that lets them respond to their environment together. The team in the journal Proceedings of the National Academy of Sciences on Sept. 6.

The researchers were initially perplexed by the experiment鈥檚 results, said co-author (pictured right), a physics associate professor in the Dietrich School and Lefebre鈥檚 advisor.

鈥淲e didn鈥檛 understand what we were seeing until we actually wrote down a mathematical model. Then we could drill down and say, 鈥楲et鈥檚 just take two cells,鈥欌 Mugler said. Scaling up that simplified model led the team to understand how interactions between individual cells produced the larger-scale patterns of the network. 听

Changing the speed of fluctuations in the cell network鈥檚 environment also influenced how well the cells could respond: If the environment changes too quickly, the cells can鈥檛 coordinate effectively. 听

Key to the team鈥檚 experimental setup are cells from a part of the brain that鈥檚 important in reproduction and metabolism, and that react to a chemical called ATP by releasing calcium into their environment. Researchers were able to change the experiment to alter how effectively the cells passed around chemical messages and used statistics to show which cells act as 鈥渓eaders鈥 and 鈥渇ollowers鈥 at a given time.

The system, Mugler explained, is typical of those favored by biological physicists like his team: It鈥檚 lifelike enough to resemble natural cell networks but simple enough to be manipulated, studied and described using math. 鈥淚t鈥檚 a sandbox for the collective behavior of cells,鈥 Mugler said. 鈥淲e can wrap our heads around it, and we can control it.鈥

While this is an early step in understanding how networks of cells respond to their environment collectively, building that understanding may provide insight into a number of diseases, including cancer. 鈥淎 lot of times when we get a malfunction in tissues, it comes from a lack of coordi91porn视频 between cells,鈥 Mugler said. 鈥淚n tumor growth and metastasis, cells stop being a member of the team and acquire a more individualistic, less coordinated nature.鈥

Next, the team is working on modeling more complex networks of cells by placing neurons in randomly generated mazes, bringing into reality ideas from a branch of statistics called percolation theory.

鈥淚 think it鈥檚 going to produce some pretty cool results,鈥 Mugler said.

Photography by Aimee Obidzinski