
The brain drain is real. There is a network of previously unrecognised vessels that rid the brain of unwanted extracellular fluids and other substances, including amyloid-beta ā a peptide that accumulates in the brain of people with Alzheimerās. The new discovery looks set to add to our understanding of the disease.
at the University of Rochester Medical Center, New York, and his colleagues, were intrigued by the fact that there are no obvious lymphatic vessels in the brain. Among other things, the lymphatic system removes waste interstitial fluids from body tissue.
āIt seemed strange that such an important and active organ wouldnāt have a specialised waste-removal system,ā says Iliff.
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When the researchers added fluorescent and radioactive tracers to the cerebrospinal fluid of live mice, the tracers quickly spread throughout the rodentsā brains. Using two-photon microscopy to visualise the movement in real-time, the team saw cerebrospinal fluid permeating the entire brain through āpipesā surrounding blood vessels, similar to the lymphatic system that services all other organs.
The pipes work on hydraulic principles, though, and so the system breaks upon opening, making it hard to identify it outside living organisms.
Flushing system
Further study showed that the flow of cerebrospinal fluid ground to a halt if the researchers inactivated a second system, which helps transport water around the central nervous system and involves star-shaped cells called astroglia. That finding suggests that glial cells, which support and protect neurons, play a key role in the newly identified drainage network. Iliffās team has named the new network the glymphatic system, in recognition of the importance of glial cells and the resemblance to the lymphatic system.
The researchers found that the glymphatic system flushes waste from the brain through large drainage veins. That waste includes 55 per cent of the amyloid-beta removed from the rodentās brains.
āRemoving waste is as vital to organ function as receiving nutrients,ā says Iliff. āSo the failure of the glymphatic system is probably involved in many disease states ā for example, Alzheimerās with its hallmark accumulation of amyloid-beta.ā
of the Cajal Institute in Madrid, Spain, who was not a member of the study team, says the finding heralds an exciting time in Alzheimerās research. āData suggests amyloid-beta is responsible for most deleterious effects of Alzheimerās, so this ābrain cleaning systemā could be used as a therapeutic target in individuals with Alzheimerās disease.ā
of Kingās College London, who was also not involved in the new work, is fascinated by the discovery, but cautious about the implications for Alzheimerās research. āIt is uncertain whether treatments effective in clearing amyloid-beta in humans do anything to slow the progression of dementia,ā he says. āAssuming a failure to clear amyloid-beta is at the root of Alzheimerās disease is likely to be an oversimplification.ā
Journal reference: , DOI: 10.1126/scitranslmed.3003748