Monday, March 23, 2020

Method reprograms cells to build stuff on brain cells

Small figures do construction work on a model of a brain

Researchers have developed a technique that reprograms cells to use synthetic materials to build artificial structures able to carry out functions inside the body.

“We turned cells into chemical engineers of a sort, that use materials we provide to construct functional polymers that change their behaviors in specific ways,” says Karl Deisseroth, professor of bioengineering and of psychiatry and behavioral sciences at Stanford University, who co-led the work.

In their study, the researchers explain how they developed genetically targeted chemical assembly, or GTCA, and used the new method to build artificial structures on mammalian brain cells and on neurons in the tiny worm called C. elegans. The structures were made using two different biocompatible materials, each with a different electronic property. One material was an insulator, the other a conductor.

Study co-leader Zhenan Bao, a professor and chair of chemical engineering, says that while the current experiments focused mainly on brain cells or neurons, GTCA should also work with other cell types.

“We’ve developed a technology platform that can tap into the biochemical processes of cells throughout the body,” Bao says.

The researchers began by genetically reprogramming the cells they wanted to affect. They did this by using standard bioengineering techniques to deliver instructions for adding an enzyme, called APEX2, into specific neurons.

Next, the scientists immersed the worms and other experimental tissues in a solution with two active ingredients—an extremely low, non-lethal dose of hydrogen peroxide, and billions of molecules of the raw material they wanted the cells to use for their building projects.

Contact between the hydrogen peroxide and the neurons with the APEX2 enzyme triggered a series of chemical reactions that fused the raw-material molecules together into a chain known as a polymer to form a mesh-like material. In this way, the researchers were able to weave artificial nets with either insulative or conductive properties around only the neurons they wanted.

The polymers changed the properties of the neurons. Depending on which polymer was formed, the neurons fired faster or slower, and when these polymers were created in cells of C. elegans, the worms’ crawling movements were altered in opposite ways.

In the mammalian cell experiments, the researchers ran similar polymer-forming experiments on living slices from mouse brains and on cultured neurons from rat brains, and verified the conducting or insulating properties of the synthesized polymers. Finally, they injected a low-concentration hydrogen peroxide solution along with millions of the raw-material molecules into the brains of live mice to verify that these elements were not toxic together.

Rather than a medical application, Deisseroth says, “what we have are tools for exploration.” But these tools could be used to study how multiple sclerosis, caused by the fraying of myelin insulation around nerves, might respond if diseased cells could be induced to form insulating polymers as replacements. Researchers might also explore whether forming conductive polymers atop misfiring neurons in autism or epilepsy might modify those conditions.

Going forward, the researchers would like to explore variants of their cell-targeted technology. GTCA could be used to produce a wide range of functional materials, implemented by diverse chemical signals.

“We’re imagining a whole world of possibilities at this new interface of chemistry and biology,” Deisseroth says.

The research appears in Science.

Support for the research came from the National Institutes of Health, the National Science Foundation, Stanford Bio-X, the Wu-Tsai Neurosciences Institute, the Kwanjeong International Fellowship, the Advanced Light Source US Department of Energy Facility, and Stanford NanoSharedFacilities.

Source: Stanford University

The post Method reprograms cells to build stuff on brain cells appeared first on Futurity.



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