Alzheimer's drug may repair brain cell DNA

Published On 10 Jul, 2026
alzheimers-drug-may-repair-brain-cell-dna

The study, published in FEBS Open Bio, was conducted by researchers at King’s College London. They tested an experimental drug, KCL-286, on mice with Alzheimer’s, indicating that addressing DNA damage could serve as a novel treatment approach.

Current treatments mainly alleviate symptoms or slow progression without tackling the root cause. Over the years, brain cells gather DNA damage due to aging, inflammation, and normal processes.

When this damage accumulates faster than it can be repaired, neurons may malfunction or die.

The team focused on a protein called retinoic acid receptor-beta (RARβ), which regulates gene expression. KCL-286 activates this receptor, triggering a process that boosts the production of DNA repair proteins.

Post-treatment, mice showed improved DNA repair in neurons. The drug also decreased brain inflammation and reduced abnormal immune cell activity associated with Alzheimer’s.

Professor Jonathan Corcoran likened this to repairing potholes—once fixed, traffic flows smoothly. Similarly, repairing DNA damage restores brain cell function and decreases harmful inflammation.

Researchers believe this method could eventually treat Alzheimer’s and other neurodegenerative conditions. Since DNA damage affects many neurological disorders, enhancing the brain’s repair systems could offer broad benefits.