Brain’s “Traffic Controllers” Hold Key to Learning and Memory

 Your competent? doctor already put together a protocol on fixing these based on this earlier research, right? NO? So, you don't have a functioning stroke doctor, do you?

State of intracortical inhibitory interneuron activity in patients with chronic stroke 2013

Short-term cerebral ischemia causes the dysfunction of interneurons and more excitation of pyramidal neurons in rats 2003

Longitudinal functional imaging of VIP interneurons reveals sup-population specific effects of stroke that are rescued with chemogenetic therapy 2021

Brain ischemia induces regeneration of interneurons but not projection neurons 2013

The latest here:

Brain’s “Traffic Controllers” Hold Key to Learning and Memory

Summary: A new study reveals how interneurons, brain cells that regulate the firing of other neurons, act as traffic controllers in the hippocampus, a region critical for learning and memory. Researchers found that activating a single interneuron triggered synchronized brain cell activity during rest, potentially aiding memory formation.

This discovery highlights how interneurons influence brain rhythms and suggests their dysfunction may contribute to disorders like epilepsy, autism, and schizophrenia. These findings could lead to targeted therapies for neurological conditions linked to abnormal brain rhythms.

Key Facts:

• Activating a single interneuron triggers synchronized brain cell activity.
• Interneurons regulate brain rhythms critical for learning and memory.
• Findings could inform treatments for epilepsy, autism, and schizophrenia.

Source: Durham University

A study led by Dr. Marco Bocchio in the Durham University Department of Psychology reveals how specific brain cells called interneurons can act as our in-built traffic controllers.

The findings are published in the journal PLOS Biology.

The research opens up potential future treatments for neurological disorders by understanding how these brain cells communicate. Until now, it was unclear how individual interneurons contribute to larger patterns of brain activity.

During quiet, restful periods, they found that activating a single interneuron triggered a coordinated response across other brain cells—a short burst of synchronized brain activity. Credit: Neuroscience News

Interneurons work a bit like the brain’s traffic controllers where they regulate the firing of other brain cells, acting like a sophisticated brake system.

This control is critical because when interneurons behave differently, it can contribute to neurological conditions like epilepsy, autism, and schizophrenia.

The team studied interneurons in mice and looked at a brain region crucial for learning and memory within the hippocampus. They used advanced brain imaging and light-activated cell techniques.

During quiet, restful periods, they found that activating a single interneuron triggered a coordinated response across other brain cells—a short burst of synchronized brain activity. This happened without disturbing the existing organization of the brain cells.

Activating a single interneuron weakened the brain’s “stop” signals which then allowed groups of brain cells to fire together. These synchronized brain cell activities might help with forming new memories or processing past experiences.

This discovery offers valuable insights into how our brain is organized and suggests that targeting interneurons could one day help treat disorders linked to pathological brain rhythms.

About this learning and memory research news

Author: Marco Bocchio
Source: Durham University
Contact: Marco Bocchio – Durham University
Image: The image is credited to Neuroscience News

Original Research: Open access.
“Functional networks of inhibitory neurons orchestrate synchrony in the hippocampus” by Marco Bocchio et al. PLOS Biology

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