By Aswathy Ammothumkandy, University of Southern California; Charles Liu, University of Southern California; Michael A. Bonaguidi, University of Southern California; The Conversation
By bringing together basic science in the lab and clinical research in people, a better understanding of brain regeneration could help support brain health throughout the lifespan. (Pixabay photo)
Your brain can still make new neurons when you’re an adult. But how does the rare birth of these new neurons contribute to cognitive function?
Neurons are the cells that govern brain function, and you are born with most of the neurons you will ever have during your lifetime. While the brain undergoes most of its development during early life, specific regions of the brain continue to generate new neurons throughout adulthood, although at a much lower rate. Whether this process of neurogenesis actually happens in adults and what function it serves in the brain is still a subject of debate among scientists.
Past research has shown that people with epilepsy or Alzheimer’s disease and other dementias develop fewer neurons as adults than people without these conditions. However, whether the absence of new neurons contributes to the cognitive challenges patients with these neurological disorders face is unknown.
We are part of a team of stem cell researchers, neuroscientists, neurologists, neurosurgeons and neuropsychologists. Our newly published research reveals that the new neurons that form in adults’ brains are linked to how you learn from listening to other people.
New neurons and learning
Researchers know that new neurons contribute to memory and learning in mice. But in humans, the technical challenges of identifying and analyzing new neurons in adult brains, combined with their rarity, had led scientists to doubt their significance to brain function.
To uncover the relationship between neurogenesis in adults and cognitive function, we studied patients with drug-resistant epilepsy. These patients underwent cognitive assessments prior to and donated brain tissue during surgical procedures to treat their seizures. To see whether how many new neurons a patient had was associated with specific cognitive functions, we looked under the microscope for markers of neurogenesis.
We found that new neurons in the adult brain are linked to reduced cognitive decline – particularly in verbal learning, or learning by listening to others.
This was very surprising to us. In mice, new neurons are known for their role in helping them learn and navigate new spaces through visual exploration. However, we did not observe a similar connection between new neurons and spatial learning in people.
Improving cognition
Talking with others and remembering those conversations is an integral part of day-to-day life for many people. However, this crucial cognitive function declines with age, and the effects are more severe with neurological disorders. As aging populations grow, the burden of cognitive decline on health care systems worldwide will increase.
Our research suggests that the link between newborn neurons and verbal learning may be foundational to developing treatments to restore cognition in people. Enhancing new neuron generation could be a potential strategy to improve brain health and restore cognition in aging and in people with epilepsy or dementia. But for now, these ideas are just goals and any future treatments are a long way off.
Importantly, our finding that new neurons function differently in mice and in humans emphasizes the critical need to study biological functions like neurogenesis in people whenever possible. This will ensure that research conducted in animal models, such as mice, is relevant to people and can translate to the clinic.
Current drugs for epilepsy primarily aim to reduce seizures, with limited focus on addressing the cognitive decline patients experience. To enhance cognitive outcomes for patients, we started a clinical trial focusing on boosting new neuron production and cognition in epilepsy patients through aerobic exercise. We are currently in the early Phase 1 of the clinical trial, which seeks to establish the safety of the study. Thus far, two patients have successfully and safely finished the study. We plan to recruit eight more patients to exercise and complete this phase.
By bringing together basic science in the lab and clinical research in people, a better understanding of brain regeneration could help support brain health throughout the lifespan.
Aswathy Ammothumkandy, Postdoctoral Research Associate in Stem Cell Biology and Regenerative Medicine, University of Southern California; Charles Liu, Professor of Clinical Neurological Surgery, University of Southern California, and Michael A. Bonaguidi, Associate Professor of Stem Cell Biology and Regenerative Medicine, University of Southern California
This article is republished from The Conversation under a Creative Commons license. Read the original article.
