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Specific gene linked to adult growth of brain cells, learning, memory
Posted: Wednesday, June 11, 2014 3:58 PM
Joined: 12/6/2011
Posts: 3326

Learning and memory are regulated by a region of the brain known as the hippocampus. New research from City of Hope has found that stimulating a specific gene could prompt growth – in adults – of new neurons in this critical region, leading to faster learning and better memories.  

Understanding the link between this gene and the growth of new neurons – or neurogenesis – is an important step in developing therapies to address impaired learning and memory associated with neurodegenerative diseases and aging. The new research was published June 9 in the Proceedings of the National Academy of Sciences. 


The study, which used an animal model, found that over-expressing the gene – a nuclear receptor called TLX – resulted in smart, faster learners that retained information better and longer. 


“Memory loss is a major health problem, both in diseases like Alzheimer’s, but also just associated with aging,” said Yanhong Shi, Ph.D., lead author of the study and a neurosciences professor at City of Hope. “In our study, we manipulated the expression of this receptor by introducing an additional copy of the gene – which obviously we cannot do outside the laboratory setting. The next step is to find the drug that can target this same gene.” 


The discovery creates a new potential strategy for improving cognitive performance in elderly patients and those who have a neurological disease or brain injury. 


The bulk of the brain’s development happens before birth, and there are periods –largely in childhood and young adulthood – when the brain experiences bursts of new growth. In the past couple of decades, however, scientists have found evidence of neurogenesis in later adulthood – occurring mostly in the hippocampus, the region of the brain associated with learning and memory. 


The new study is the first to firmly link the TLX gene to a potential for enhancing learning and memory. 


Researchers found that over-expression of the gene was actually associated with a physically larger brain, as well as the ability to learn a task quickly. Furthermore, over-expression of the gene was linked with the ability to remember, over a longer period of time, what had been learned.