Fruit Flies Offer New Shortcut to Test Alzheimer's Drugs Before They Reach the Brain
Researchers created a fruit fly model that mimics how Alzheimer's proteins damage the gut instead of the brain, allowing drug developers to quickly screen compounds for efficacy without complex blood-brain barrier challenges. The advance could accelerate the discovery of oral Alzheimer's treatments and reduce early-stage development costs.
Originaltitel: A Novel <i>Drosophila</i> Model of Alzheimer's Disease to Study Aß Proteotoxicity in the Digestive Tract
<p>Amyloid-beta (A beta) proteotoxicity is associated with Alzheimer's disease (AD) and is caused by protein aggregation, resulting in neuronal damage in the brain. In the search for novel treatments, Drosophila melanogaster has been extensively used to screen for anti-A beta proteotoxic agents in studies where toxic A beta peptides are expressed in the fly brain. Since drug molecules often are administered orally there is a risk that they fail to reach the brain, due to their inability to cross the brain barrier. To circumvent this problem, we have designed a novel Drosophila model that expresses the A beta peptides in the digestive tract. In addition, a built-in apoptotic sensor provides a fluorescent signal from the green fluorescent protein as a response to caspase activity. We found that expressing different variants of A beta 1-42 resulted in proteotoxic phenotypes such as reduced longevity, aggregate deposition, and the presence of apoptotic cells. Taken together, this gut-based A beta-expressing fly model can be used to study the mechanisms behind A beta proteotoxicity and to identify different substances that can modify A beta proteotoxicity.</p>