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Converting brain immune cells into neurons helps mice recover after stroke

Date:
October 18, 2023
Source:
Kyushu University
Summary:
Researchers have discovered that turning brain immune cells into neurons successfully restores brain function after stroke-like injury in mice. These findings suggest that replenishing neurons from immune cells could be a promising avenue for treating stroke in humans.
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Researchers at Kyushu University have discovered that turning brain immune cells into neurons successfully restores brain function after stroke-like injury in mice. These findings, published on October 10 in PNAS, suggest that replenishing neurons from immune cells could be a promising avenue for treating stroke in humans.

Stroke, and other cerebrovascular diseases, occur when blood flow to the brain is affected, causing damage to neurons. Recovery is often poor, with patients suffering from severe physical disabilities and cognitive problems. Worldwide, it's one of the most common causes for needing long-term care.

"When we get a cut or break a bone, our skin and bone cells can replicate to heal our body. But the neurons in our brain cannot easily regenerate, so the damage is often permanent," says Professor Kinichi Nakashima, from Kyushu University's Graduate School of Medical Sciences. "We therefore need to find new ways to replace lost neurons."

One possible strategy is to convert other cells in the brain into neurons. Here, the researchers focused on microglia, the main immune cells in the central nervous system. Microglia are tasked with removing damaged or dead cells in the brain, so after a stroke, they move towards the site of injury and replicate quickly.

"Microglia are abundant and exactly in the place we need them, so they are an ideal target for conversion," says first author, Dr. Takashi Irie from Kyushu University Hospital.

In prior research, the team demonstrated that they could induce microglia to develop into neurons in the brains of healthy mice. Now, Dr. Irie and Professor Nakashima, along with Lecturer Taito Matsuda and Professor Noriko Isobe from Kyushu University Graduate School of Medical Sciences, showed that this strategy of replacing neurons also works in injured brains and contributes to brain recovery.

To conduct the study, the researchers caused a stroke-like injury in mice by temporarily blocking the right middle cerebral artery -- a major blood vessel in the brain that is commonly associated with stroke in humans. A week later, the researchers examined the mice and found that they had difficulties in motor function and had a marked loss of neurons in a brain region known as the striatum. This part of the brain is involved in decision making, action planning and motor coordination.

The researchers then used a lentivirus to insert DNA into microglial cells at the site of the injury. The DNA held instructions for producing NeuroD1, a protein that induces neuronal conversion. Over the subsequent weeks, the infected cells began developing into neurons and the areas of the brain with neuron loss decreased. By eight weeks, the new induced neurons had successfully integrated into the brain's circuits.

At only three weeks post-infection, the mice showed improved motor function in behavioral tests. These improvements were lost when the researchers removed the new induced neurons, providing strong evidence that the newly converted neurons directly contributed to recovery.

"These results are very promising. The next step is to test whether NeuroD1 is also effective at converting human microglia into neurons and confirm that our method of inserting genes into the microglial cells is safe," says Professor Nakashima.

Furthermore, the treatment was conducted in mice in the acute phase after stroke, when microglia were migrating to and replicating at the site of injury. Therefore, the researchers also plan to see if recovery is also possible in mice at a later, chronic phase.


Story Source:

Materials provided by Kyushu University. Note: Content may be edited for style and length.


Journal Reference:

  1. Takashi Irie, Taito Matsuda, Yoshinori Hayashi, Kanae Matsuda-Ito, Akihide Kamiya, Takahiro Masuda, Marco Prinz, Noriko Isobe, Jun-ichi Kira, Kinichi Nakashima. Direct neuronal conversion of microglia/macrophages reinstates neurological function after stroke. Proceedings of the National Academy of Sciences, 2023; 120 (42) DOI: 10.1073/pnas.2307972120

Cite This Page:

Kyushu University. "Converting brain immune cells into neurons helps mice recover after stroke." ScienceDaily. ScienceDaily, 18 October 2023. <www.sciencedaily.com/releases/2023/10/231018161905.htm>.
Kyushu University. (2023, October 18). Converting brain immune cells into neurons helps mice recover after stroke. ScienceDaily. Retrieved December 18, 2024 from www.sciencedaily.com/releases/2023/10/231018161905.htm
Kyushu University. "Converting brain immune cells into neurons helps mice recover after stroke." ScienceDaily. www.sciencedaily.com/releases/2023/10/231018161905.htm (accessed December 18, 2024).

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