https://neurosciencenews.com/learning-neuroplasticity-19797/

Learning and Protecting Itself: How the Brain Adapts

FeaturedNeuroscience·December 14, 2021

Summary: Blocking the matrix metalloproteinases MMP2 and MMP9 can have the opposite effect on neuroplasticity depending on whether the brain is healthy or injured.

Source: University of Gottingen

The brain is a remarkably complex and adaptable organ. However, adaptability decreases with age. As new connections between nerve cells in the brain form less easily, the brain’s plasticity decreases.

If there is an injury to the central nervous system, such as after a stroke, the brain needs to compensate by reorganizing itself. To do this, a dense network of molecules between the nerve cells—known as the extracellular matrix—must loosen.

This is the job of a wide variety of enzymes that ultimately regulate how plastic or how stable the brain is. Researchers at the University of Göttingen studied what happens when certain enzymes are blocked in mice. Depending on whether the brain is healthy or diseased, the inhibition had opposite effects.

The results were published in the Journal of Neuroscience.

Learning and recovery from injuries depend on the plasticity of neuronal connections. Macromolecules of the extracellular matrix, located between the nerve cells, are important for plasticity.

As people grow up, the stability of this extracellular matrix increases, providing a scaffold for stabilizing existing connections between the nerve cells, and consolidating information. If someone experiences something new, the extracellular matrix must be loosened to allow new connections to form.https://f954b5e4e2e7cce42a4895d8eed2540e.safeframe.googlesyndication.com/safeframe/1-0-38/html/container.html

This relationship between stability and plasticity in the brain is regulated in the matrix with the help of enzymes such as matrix metalloproteinases (MMPs), which can “digest” the extracellular matrix and thus “loosen” it.

A team from the University of Göttingen has now been able to show in a new study that blocking the matrix metalloproteinases MMP2 and MMP9 can have opposing effects depending on whether the brain is sick or healthy.

To measure neuronal plasticity, the scientists let adult mice see only through one eye for several days and recorded the resulting activity changes in the animals’ visual cortex. They first examined the adaptability of the visual cortexes of healthy mice in which the enzymes MMP2 and MMP9 were blocked (with SB3CT).

This shows neurons
Neuronal plasticity is facilitated by the enzymatic digestion of the brain’s extracellular matrix (ECM) (Akol et al., 2021). This fluorescence microscopy image shows neurons in the mouse visual cortex enwrapped by red labelled ECM molecules. Upper row: low magnification, lower row: high magnification. Credit: Siegrid Löwel

https://f954b5e4e2e7cce42a4895d8eed2540e.safeframe.googlesyndication.com/safeframe/1-0-38/html/container.html

As a result, neuronal plasticity was also blocked. In a second experiment, the team researched mice immediately after a stroke. It was already known that a stroke leads to a strong short-term increase in MMPs. In this case, the targeted, short-term inhibition of the enzymes MMP2 and MMP9 produced the opposite effect: The plasticity that had been greatly reduced by the stroke was restored, so blocking the enzymes MMP2 and MMP9 had a clear therapeutic effect.

“What made the design of our study different from many previous studies, is that the matrix-degrading enzymes were blocked only after the experimental stroke, which simulates treatment,” says Professor Siegrid Löwel from the Department of Systems Neuroscience at Göttingen University.

“We also show that the MMPs in the brain have to be very well monitored and precisely adjusted. Too low a level in the healthy brain prevents neuronal plasticity and too high a level—as after a stroke—also blocks neuronal plasticity.”

About this neuroplasticity research news

Author: Press Office
Source: University of Gottingen
Contact: Press Office – University of Gottingen

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