Scientists Find New Way To Clear Toxic Waste From Brain, Could aid efforts to find treatments for Alzheimer’s dementia and other diseases. A new druggable pathway that potentially could be used to help prevent Alzheimer’s dementia has been discovered by researchers at Washington University School of Medicine in St. Louis.

Scientists Find New Way To Clear Toxic Waste From Brain

New Way To Clear Toxic , Amyloid beta accumulation in the brain is believed to be the first step in the development of Alzheimer’s dementia. Researchers have poured countless hours and millions of dollars into finding ways to clear amyloid away before cognitive symptoms arise. Unfortunately, the results have been largely disappointing. In this study, scientists found a way to increase the clearance of waste products from the brains of mice by ramping up a genetic quirk known as readthrough. According to the researchers, this same strategy also may be effective for other neurodegenerative diseases characterized by the buildup of toxic proteins, such as Parkinson’s disease. The study was published on August 24, 2022, in the journal Brain. Every once in a while, the brain protein aquaporin 4 is synthesized with an extra little tail on the end. At first, Darshan Sapkota, PhD thought this tail represented nothing more than an occasional failure of quality control in the protein-manufacturing process. Sapkota led this study while a postdoctoral researcher at Washington University but is now an assistant professor of biological sciences at the University of Texas, Dallas. We were studying this very wonky basic science question — ‘How do proteins get made?’ — and we noticed this funny thing,” said senior author Joseph D. Dougherty, PhD, a Washington University professor of genetics and of psychiatry, and Sapkota’s former mentor. “Sometimes the protein-synthesizing machinery blew right through the stop sign at the end and made this extra bit on the end of aquaporin 4. At first, we thought it couldn’t possibly be relevant. But then we looked at the gene sequence, and it was conserved across species. And it had this really striking pattern in the brain: It was only in structures that are important for waste clearance. So that’s when we got excited.”

New Way To Clear Toxic , Scientists already knew that occasionally the cell’s protein-building machinery fails to stop where it should. When the machinery doesn’t stop — a phenomenon called readthrough — it creates extended forms of proteins that sometimes function differently than the regular forms. Sapkota and Dougherty created special tools to see whether the long form of aquaporin 4 behaved differently in the brain than the regular form. They discovered the long form — but not the short one — in the so-called endfeet of astrocytes. Astrocytes are a kind of support cell that help maintain the barrier between the brain and the rest of the body. Their endfeet wrap around tiny blood vessels in the brain and help regulate blood flow. Inside astrocytic endfeet is the perfect place to be if your job is to keep the brain free of unwanted proteins by flushing waste out of the brain and into the bloodstream, where it can be carried away and disposed of. Sapkota though that increasing the amount of long aquaporin 4 might increase waste clearance. Therefore, he screened 2,560 compounds for the ability to increase readthrough of the aquaporin 4 gene. He found two: apigenin, a dietary flavone found in chamomile, parsley, onions, and other edible plants; and sulphaquinoxaline, a veterinary antibiotic used in the meat and poultry industries. Sapkota and Dougherty teamed up with Alzheimer’s researchers and co-authors John Cirrito, PhD, an associate professor of neurology, and Carla Yuede, PhD, an associate professor of psychiatry, of neurology, and of neuroscience, to figure out the relationship between long aquaporin 4 and amyloid beta clearance.

New Way To Clear Toxic , The scientists studied mice that were genetically engineered to have high levels of amyloid in their brains. They treated the mice with apigenin; sulphaquinoxaline; an inert liquid; or a placebo compound that has no effect on readthrough. Mice treated with either apigenin or sulphaquinoxaline cleared amyloid beta significantly faster than those treated with either of the two inactive substances. “There’s a lot of data that says reducing amyloid levels by just 20% to 25% stops amyloid buildup, at least in mice, and the effects we saw were in that ballpark,” Cirrito said. “That tells me that this could be a novel approach to treating Alzheimer’s and other neurodegenerative diseases that involve protein aggregation in the brain. There’s nothing that says this process is specific for amyloid beta. It may be enhancing, say, alpha-synuclein clearance, too, which could benefit people with Parkinson’s disease.” Sulphaquinoxaline is not safe for use in people. Apigenin is available as a dietary supplement, but it’s not known how much gets into the brain. Cirrito cautions against consuming large amounts of apigenin in an attempt to stave off Alzheimer’s. The scientists are working on finding better drugs that influence the production of the long form of aquaporin 4, testing several derivatives of sulphaquinoxaline and additional compounds.

Source: This news is originally published by scitechdaily

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