Loss of support cells in brain may inhibit neuronal development

Loss of support cells in brain may inhibit neuronal development
Washington University School of Medicine researchers Courtney Sobieski (left) and Steven Mennerick, PhD, found, in culture, that without cells called astrocytes, neurons send signals to one another more slowly. That slowdown could interfere with neuronal development and contribute to conditions linked to communication between neurons. Credit: Robert Boston

Shedding light on possible contributors to autism, schizophrenia and other neuro-psychiatric disorders, researchers have found that a type of support cell abundant in the brain may play a role in the ability of neurons to communicate.

The team of scientists, at Washington University School of Medicine in St. Louis found, in culture, that without these cells—called astrocytes—the ability of to send certain signals is slowed. Such a slowdown could interfere with neuronal development and contribute to conditions linked to communication between neurons, including autism and schizophrenia.

The study is available in the Journal of Neuroscience.

"This work highlights that although neurons are the focus of considerable research, the brain is composed of other types of cells that also are very important," said first author Courtney Sobieski. "Astrocytes are support cells that appear to play a key role in the development of healthy neurons. The neurons have trouble communicating without the support of astrocytes."

Senior author Steven Mennerick, PhD, professor of psychiatry, explained that glutamate, a neurotransmitter, plays a key role in carrying messages around the brain.

"It's the main transmitter at about 90 percent of the points of communication in the brain," he said. "And we found that when we take away astrocytes, glutamate signaling is compromised."

Sobieski, a graduate student in Mennerick's lab, developed a way to grow either with or without astrocytes. As they compared the neurons in culture, they found found that when there was no astrocyte, a neuron's ability to send glutamate signals slowed down and became disjointed.

"The delay was several milliseconds," explained Mennerick, also an investigator with the Taylor Family Institute for Innovative Psychiatric Research. "That may sound like a small amount of time, but in electrical communication in the central nervous system, a few milliseconds is a very big deal. Such a delay could interfere with and contribute to problems seen in conditions such as autism and schizophrenia."

The disruptions in glutamate signaling linked to astrocytes also may be related to seizure disorders, such as epilepsy, that are characterized by interrupted electrical signaling.

Mennerick said more research is needed but that it is important for researchers to look beyond neurons.

"It may be that the root of a problem is related to a nearby astrocyte," he said. "So broadening our perspective and keeping those connections in mind when there are disruptions in signaling between neurons is an important implication of this work."


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More information: "Loss of local astrocyte support disrupts action potential propagation and glutamate release synchrony from unmyelinated hippocampal axon terminals in vitro." Journal of Neuroscience, published online Aug. 5, 2015. DOI:10,1523/JNEUROSCI.1289-15.2015
Journal information: Journal of Neuroscience

Citation: Loss of support cells in brain may inhibit neuronal development (2015, October 7) retrieved 20 June 2019 from https://medicalxpress.com/news/2015-10-loss-cells-brain-inhibit-neuronal.html
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