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Home » News & Events » News Releases

News Releases

Media Advisory

Monday, October 5, 2020

NIH scientists reveal how the brain may fuel intense neural communication

Results suggest retrieval of cellular powerplants via an energy feedback loop sustains communication.

Scan of a neuron with different energy levels. Intense neural conversations thought to underlie learning and memory may be fueled by an energy-sensing feedback loop. Scientist monitored energy levels in the form of ATP as neurons talked to each other.Sheng lab NINDS/NIH.

What

Our thoughts, feelings, and movements are controlled by billions of neurons talking to each other at trillions of specialized communication points called synapses. In an in-depth study of neurons grown in laboratory petri dishes, National Institutes of Health researchers discovered how the chattiest of some synapses find the energy to support intense conversations thought to underlie learning and memory. Their results, published in Nature Metabolism, suggest that a series of chemical reactions control a feedback loop that senses the need for more energy and replenishes it by recruiting cellular powerplants, called mitochondria, to the synapses. The experiments were performed by researchers in a lab led by Zu-Hang Sheng, Ph.D., at the NIH’s National Institute of Neurological Disorders and Stroke (NINDS).

The team studied synapses that use the neurotransmitter glutamate to communicate. Communication happens when a packet of glutamate is released from presynaptic boutons which are tiny protrusions that stick out, like beads on a string, of long, wiry parts of neurons called axons. Previously, Dr. Sheng’s team showed that synaptic communication is an energy-demanding process and that mitochondria traveling along axons can control signals sent by boutons. Boutons that had mitochondria sent stronger and more consistent signals than those that were missing powerplants. The difference was due to higher energy levels produced by the mitochondria in the form of ATP.

In this study, led by Sunan Li, Ph.D., a post-doctoral fellow at NINDS, the team investigated what happens when boutons undergo intense communication thought to underlie learning and memory. They found that this type of signaling quickly dropped energy levels at boutons. These changes triggered a series of chemical reactions controlled by an energy sensor called AMP-activated protein kinases (AMPK) that ultimately led to the rapid recruitment of mitochondria to the boutons. Genetically blocking or chemically interfering with this feedback loop prevented the delivery of mitochondria to boutons and lowered energy levels. This, in turn, reduced synaptic responses during intense communication more than seen in control cells and slowed the recovery of the responses after the bursts ended. The researchers concluded that this feedback loop may normally play a critical role in providing the energy needed to sustain synaptic communication throughout a healthy nervous system. For example, they cite studies which implied that problems with this system may occur in some cases of Alzheimer’s disease and other neurological disorders.

Who

Sunan Li, Ph.D., post-doctoral fellow, NINDS Division of Intramural Research (DIR); Zu-Hang Sheng, Ph.D., senior investigator, head of the Synaptic Function Section, NINDS DIR

Article

Li, S. et al. The crosstalk of energy sensing and mitochondrial anchoring sustains synaptic efficacy by maintaining presynaptic metabolism; October 5, 2020, Nature Metabolism; DOI: 10.1038/s42255-020-00289-0

This study was supported by the NIH’s NINDS Division of Intramural Research (NS003029, NS002946).

This media availability describes a basic research finding. Basic research increases our understanding of human behavior and biology, which is foundational to advancing new and better ways to prevent, diagnose, and treat disease. Science is an unpredictable and incremental process — each research advance builds on past discoveries, often in unexpected ways. Most clinical advances would not be possible without the knowledge of fundamental basic research.

NINDS (https://www.ninds.nih.gov/) is the nation’s leading funder of research on the brain and nervous system. The mission of NINDS is to seek fundamental knowledge about the brain and nervous system and to use that knowledge to reduce the burden of neurological disease.

About the National Institutes of Health (NIH): NIH, the nation's medical research agency, includes 27 Institutes and Centers and is a component of the U.S. Department of Health and Human Services. NIH is the primary federal agency conducting and supporting basic, clinical, and translational medical research, and is investigating the causes, treatments, and cures for both common and rare diseases. For more information about NIH and its programs, visit www.nih.gov.

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For more information:

www.ninds.nih.gov

irp.nih.gov/

dir.ninds.nih.gov/ninds/Home.html

neuroscience.nih.gov/ninds/Home.aspx

References

Li, S. et al. The crosstalk of energy sensing and mitochondrial anchoring sustains synaptic efficacy by maintaining presynaptic metabolism; October 5, 2020, Nature Metabolism; DOI: 10.1038/s42255-020-00289-0.

###

Institute/Center

National Institute of Neurological Disorders and Stroke (NINDS)

Contact

Christopher G. Thomas
301-496-5751
NIH researchers discovered that intense neural conversations thought to underlie learning and memory may be fueled by an energy-sensing feedback loop that retrieves cellular powerplants called mitochondria. Here mitochondria dance along axons of chattering neurons.

NIH researchers discovered that intense neural conversations thought to underlie learning and memory may be fueled by an energy-sensing feedback loop that retrieves cellular powerplants called mitochondria. Here mitochondria dance along axons of chattering neurons.

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