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First peek at how neurons multitask

By R&D Editors | November 10, 2014

Many neurons are multifunctional and can encode multiple outputs. This is not only the case for simple model organisms with a small nervous system, but also true for mammals with a large and complex brain. However, how individual neurons encode multiple outputs remains enigmatic. Using C. elegans as a model, Xu and colleagues report that to control multiple behavioral outputs, neurons can route information through multiple downstream neural circuits, with each circuit controlling a specific behavioral output. The cover illustration depicts a ringmaster who is juggling on the stage, reflecting the fact that his brain is multitasking. Image: Elise GriswoldResearchers at the Univ. of Michigan have shown how a single neuron can perform multiple functions in a model organism, illuminating for the first time this fundamental biological mechanism and shedding light on the human brain.

Investigators in the laboratory of Shawn Xu at the Life Sciences Institute found that a neuron in C. elegans, a tiny worm with a simple nervous system used as a model for studying sensation, movement and other neurological function, regulates both the speed and direction in which the worm moves. The individual neurons can route information through multiple downstream neural circuits, with each circuit controlling a specific behavioral output.

The findings are published online in Cell.

“Understanding how the nervous system and genes lead to behavior is a fundamental question in neuroscience, and we wanted to figure out how C. elegans are able to perform a wide range of complex behaviors with their small nervous systems,” Xu said.

The C. elegans nervous system contains 302 neurons.

“Scientists think that even though humans have billions of neurons, some perform multiple functions. Seeing the mechanism in worms will help to understand the human brain,” Xu said.

The model neuron studied, AIY, regulates at least two distinct motor outputs: locomotion speed and direction-switch. AIY interacts with two circuits, one that is inhibitory and controls changes in the direction of the worm’s movement, and a second that is excitatory and controls speed.

“It’s important to note that these two circuits have connections with other neurons and may cross-talk with each other,” Xu said. “Neuronal control of behavior is very complex.”

Source: Univ. of Michigan

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