A scanning electron micrograph of a mouse nerve cell that is affected by misfolded versions of the proteins amyloid and beta, which are thought to drive Alzheimer’s disease LINNEA RUNDGREN/LINEAR IMAGING/SCIENCE PHOTO LIBRARY
Interest is growing in using the brain鈥檚 waste-disposal system to delay or ease Alzheimer鈥檚 disease. Now, a new technique that helps clear toxic clumps of Alzheimer鈥檚-associated proteins from the brains of mice has been found to boost their performance on memory and learning tests.
This is done by targeting a receptor, called DDR2, that is more commonly being investigated for lung health. 鈥淚f you’re blocking the DDR2 pathway, theoretically there will be less amyloid-beta protein produced and, at the same time, it will boost the waste clearance for the protein,鈥 says at Guangzhou Medical University in China. 鈥淪o, we’re hoping it can finally reverse Alzheimer鈥檚.鈥
The build-up of misfolded proteins known as amyloid plaques and tau tangles in the brain is widely thought to trigger Alzheimer鈥檚 disease. Drugs can remove amyloid clumps, but this hasn鈥檛 translated into a large improvement in Alzheimer鈥檚 symptoms. Efforts are now increasingly pivoting towards other approaches, such as boosting the glymphatic system, which clears waste from our brain.
Li and his colleagues are building on this, by zooming in on a receptor embedded in the membrane of cells that seems to enhance glymphatic action as one of its many functions. DDR2 (discoidin domain receptor 2) is being investigated by 鈥 a member of Li鈥檚 team who is also at Guangzhou Medical University 鈥 . This lung condition occurs when the network of proteins surrounding cells 鈥 known as the extracellular matrix 鈥 becomes dysfunctional, resulting in too much of the structural protein collagen being deposited, which restricts cells鈥 oxygen supply.
There have been signs that dysfunction of the , with similar effects. 鈥淭his blocking of oxygen could be what causes problems with thinking or remembering,鈥 says Li.
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To investigate DDR2鈥檚 involvement, the researchers started off by looking for it in databases of human tissue, finding that it is hardly ever seen. But when they looked in samples from the brains of people with Alzheimer’s, they found lots of it. 鈥淲e are the first to confirm that DDR2 is found in high abundance in Alzheimer鈥檚 brain tissue,鈥 says Su.
Through a series of experiments in human and non-human primate cells, and mouse models of Alzheimer鈥檚, the researchers believe DDR2 regulates the cellular dysfunction that causes the disease鈥檚 symptoms.
This is based on the fact that three cell types seem to increase the amount of DDR2 in their membranes during Alzheimer鈥檚 disease. The first are reactive astrocytes, which ; the second are perivascular fibroblasts, which ; and the third are choroid plexus epithelial cells, which are important for cerebrospinal fluid production 鈥 crucial to the glymphatic system.
These results suggest that targeting DDR2 could influence multiple aspects of Alzheimer鈥檚 disease at once, says 聽at Harvard University. But given how complex the condition is, 鈥淚 will put a big question mark here in terms of reversing Alzheimer鈥檚鈥, he says.
Next, the researchers developed a monoclonal antibody to target and eliminate DDR2 receptors. In a mouse model of Alzheimer鈥檚, this improved both spatial learning and memory, with brain scans showing a reduction in DDR2, fewer amyloid plaques and a stronger glymphatic system.
鈥淭he mouse results are overall encouraging and, within the limits of a mouse model, fairly impressive,鈥 says Gu. 鈥淚t reiterates the significance of glymphatic function and brain fluid dynamics in brain health. This suggests DDR2 is a legit target for potential Alzheimer鈥檚 treatment.鈥
聽at the Novo Nordisk Foundation Center for Basic Metabolic Research in Denmark likes that the researchers are going beyond just targeting amyloid plaques, but he says the mice modelled a relatively rare type of Alzheimer鈥檚 disease that is inherited and appears earlier than is typical. It鈥檚 unclear if the antibody would function as well in the more common late-onset Alzheimer鈥檚, he says.
Yet Su argues that DDR2 upregulation is seen in people with both familial and late-onset Alzheimer鈥檚, suggesting that the treatment would have broad efficacy. DDR2 expression also seems to be increased by ageing and , she says, which are both risk factors in late-onset Alzheimer鈥檚.
The researchers are now doing a clinical trial that uses a tracer to monitor DDR2 levels in the brains of people with Alzheimer鈥檚 to determine where to direct the antibody, says Li. They are also developing a smaller antibody to more efficiently cross the blood-brain barrier.
Reference:
medRxiv
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