Gene Therapy Shows Promise Repairing Brain Tissue Damaged by Stroke
Posted on by Dr. Francis Collins
It’s a race against time when someone suffers a stroke caused by a blockage of a blood vessel supplying the brain. Unless clot-busting treatment is given within a few hours after symptoms appear, vast numbers of the brain’s neurons die, often leading to paralysis or other disabilities. It would be great to have a way to replace those lost neurons. Thanks to gene therapy, some encouraging strides are now being made.
In a recent study in Molecular Therapy, researchers reported that, in their mouse and rat models of ischemic stroke, gene therapy could actually convert the brain’s support cells into new, fully functional neurons [1]. Even better, after gaining the new neurons, the animals had improved motor and memory skills.
For the team led by Gong Chen, Penn State, University Park, the quest to replace lost neurons in the brain began about a decade ago. While searching for the right approach, Chen noticed other groups had learned to reprogram fibroblasts into stem cells and make replacement neural cells.
As innovative as this work was at the time, it was performed mostly in lab Petri dishes. Chen and his colleagues thought, why not reprogram cells already in the brain?
They turned their attention to the brain’s billions of supportive glial cells. Unlike neurons, glial cells divide and replicate. They also are known to survive and activate following a brain injury, remaining at the wound and ultimately forming a scar. This same process had also been observed in the brain following many types of injury, including stroke and neurodegenerative conditions such as Alzheimer’s disease.
To Chen’s NIH-supported team, it looked like glial cells might be a perfect target for gene therapies to replace lost neurons. As reported about five years ago, the researchers were on the right track [2].
The Chen team showed it was possible to reprogram glial cells in the brain into functional neurons. They succeeded using a genetically engineered retrovirus that delivered a single protein called NeuroD1. It’s a neural transcription factor that switches genes on and off in neural cells and helps to determine their cell fate. The newly generated neurons were also capable of integrating into brain circuits to repair damaged tissue.
There was one major hitch: the NeuroD1 retroviral vector only reprogrammed actively dividing glial cells. That suggested their strategy likely couldn’t generate the large numbers of new cells needed to repair damaged brain tissue following a stroke.
Fast-forward a couple of years, and improved adeno-associated viral vectors (AAV) have emerged as a major alternative to retroviruses for gene therapy applications. This was exactly the breakthrough that the Chen team needed. The AAVs can reprogram glial cells whether they are dividing or not.
In the new study, Chen’s team, led by post-doc Yu-Chen Chen, put this new gene therapy system to work, and the results are quite remarkable. In a mouse model of ischemic stroke, the researchers showed the treatment could regenerate about a third of the total lost neurons by preferentially targeting reactive, scar-forming glial cells. The conversion of those reactive glial cells into neurons also protected another third of the neurons from injury.
Studies in brain slices showed that the replacement neurons were fully functional and appeared to have made the needed neural connections in the brain. Importantly, their studies also showed that the NeuroD1 gene therapy led to marked improvements in the functional recovery of the mice after a stroke.
In fact, several tests of their ability to make fine movements with their forelimbs showed about a 60 percent improvement within 20 to 60 days of receiving the NeuroD1 therapy. Together with study collaborator and NIH grantee Gregory Quirk, University of Puerto Rico, San Juan, they went on to show similar improvements in the ability of rats to recover from stroke-related deficits in memory.
While further study is needed, the findings in rodents offer encouraging evidence that treatments to repair the brain after a stroke or other injury may be on the horizon. In the meantime, the best strategy for limiting the number of neurons lost due to stroke is to recognize the signs and get to a well-equipped hospital or call 911 right away if you or a loved one experience them. Those signs include: sudden numbness or weakness of one side of the body; confusion; difficulty speaking, seeing, or walking; and a sudden, severe headache with unknown causes. Getting treatment for this kind of “brain attack” within four hours of the onset of symptoms can make all the difference in recovery.
References:
[1] A NeuroD1 AAV-Based gene therapy for functional brain repair after ischemic injury through in vivo astrocyte-to-neuron conversion. Chen Y-C et al. Molecular Therapy. Published online September 6, 2019.
[2] In vivo direct reprogramming of reactive glial cells into functional neurons after brain injury and in an Alzheimer’s disease model. Guo Z, Zhang L, Wu Z, Chen Y, Wang F, Chen G. Cell Stem Cell. 2014 Feb 6;14(2):188-202.
Links:
Stroke (National Heart, Lung, and Blood Institute/NIH)
Gene Therapy (National Human Genome Research Institute/NIH)
Chen Lab (Penn State, University Park)
NIH Support: National Institute on Aging; National Institute of Mental Health
I was in the United States Air Force from 1978-2008 where due to my coworkers and my hard head I rose from a poor female to the highest rank-Chief Master Sergeant. I worked in a very challenging career field – Bioenvironmental Engineering where the team traveled world wide. 11 months after I retired I had an ischemic stroke. Through dedication I am able to walk about 400 feet, as of now. The stroke affected my right side (to include my right arm and the leg). I was so excited about the brain injury and the gene therapy. Please consider me when you are looking for people who want gene therapy. May God Bless You and your family.
I had a stroke three years ago and I’m doing good back coaching football and working but I know I still have weakness and stiffness and this all came from the stroke, I’m open to whatever.
I had a Stroke about 3 1/2 years ago. I have aphasia. A loving wife and two kids. I am 45 years old. Please consider me want you doing the gene therapy. Thank you and bless you.
My brother is struggling after stroke. A former bankruptcy attorney he walks and lives on his own but could use your newfound info.
Please advise to see if he could be part of brain studies / experimental studies.
Thanks for your comment. The work in this study was performed in rodents.But there are many clinical trials involving people with stroke. You will find many listed at http://www.clinicaltrials.gov
Can this be one day helpful with Anoxic Brain Injury patients and if so, how would it be beneficial?
I wish this was available now. My husband had a large stroke two years ago. He didn’t have any motor skills lost but his memory and some of his eye sight is gone. It’s hard to watch him lose more and more of his memories. He was a very active and intelligent man. It’s been hard to watch him lose his memories. He has been diagnosed with vascular dementia and because of the stroke now has seizures. It would be great to be able to give him his life back. I hope you get this going so you can help others so they don’t have to go through what we are going through.
I would love to know when and if this may be a possibility for humans. My son had a few strokes 4 years ago when he was 18. The worst was in the occipital lobe. This specific stroke left him with bilateral hemianopsia causing a left visual field impairment in both eyes. Due to this he is no longer to drive and do some things that have meant so much to him since just a little such as safely play soccer. This stroke happened just 4 weeks before he was to leave for his freshman year of college where he was to play on the men’s soccer team. Not being able to drive or do activities you love would be devastating for anyone, but to an 18 year old boy it was beyond comprehension. He is now in his 5 year of college because he continues to struggle emotionally, impacting his schooling. He knows how lucky he is that he’s alive or not confined to a wheelchair, but the struggle for normalcy is so much still there. Although he has learned to compensate, there are many days when he forgets to scan his environment completely and walks into objects/people causing many gashes to his face head. With college graduation hopefully in May of 2020, he is fearful of job prospects in his field of mechanical engineering because of his disability.
sounds promising, I would be anxious to participate in the research study…
Thank you very much for sharing these interesting results. I hope gene therapy can fulfill the expectations currently set on it. Even if gene therapy is only able to solve some of the problems we can not solve with the two traditional approaches (small molecules and antibodies) it is already worth the afford.
Great content, great blog, thanks for sharing …
May I please know if this drug can help repair brain stem damage? I am currently 24 years old, had a brain stem stroke when I was 8 years old. I was completely paralyzed after the brain stem stroke but thankfully I managed to gain and I am a quadriplegic at the moment wondering what is out there in the wilderness 🙂 that can get me close back to 100%. All in the name of close to 100% is a better life!