Cells’ metabolic needs are not uniform across the brain, researchers have learned. “Knocking out” an enzyme that regulates mitochondria, cells’ miniature power plants, specifically blocks the development of the mouse cerebellum more than the rest of the brain.
The results were published in Science Advances.
“This finding will be tremendously helpful in understanding the molecular mechanisms underlying developmental disorders, degenerative diseases, and even cancer in the cerebellum,” says lead author Cheng-Kui Qu, MD, PhD, professor of pediatrics at Emory University School of Medicine, Winship Cancer Institute and Aflac Cancer and Blood Disorders Center, Children’s Healthcare of Atlanta.
The cerebellum or “little brain” was long thought to be involved mainly in balance and complex motor functions. More recent research suggests it is important for decision making and emotions. In humans, the cerebellum grows more than the rest of the brain in the first year of life and its development is not complete until around 8 years of age. The most common malignant brain tumor in children, medulloblastoma, arises in the cerebellum.
Qu and his colleagues have been studying an enzyme, PTPMT1, which controls the influx of pyruvate – a source of energy derived from carbohydrates – into mitochondria. They describe pyruvate as “the master fuel” for postnatal cerebellar development.
Cells can get energy by breaking down sugar efficiently, through mitochondria, or more wastefully in a process called glycolysis. Deleting PTPMT1 provides insight into which cells are more sensitive to problems with mitochondrial metabolism. A variety of mitochondrial diseases affect different parts of the body, but the brain is especially greedy for sugar; it never really shuts off metabolically. When someone is at rest, the brain uses a quarter of the body’s blood sugar, despite taking up just 2 percent of body weight in an adult. More here.
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