A "Genetic Timetable" and Your Brain
Researchers have discovered a “genetic timetable” in the brain that is timed so precisely, experts can look at the genes in a sample of brain tissue and tell the age of a person.
Scientists from the University of Edinburgh analyzed existing data that measured gene expression in brain tissue samples from across the human lifespan – from development in the womb up to 78 years of age.
They found the timing of when different genes are expressed follows a strict pattern across the lifespan.
Most of the changes in gene expression in the brain were completed by middle-age, the study found. The gene program is delayed slightly in women compared with men, suggesting that the female brain ages more slowly than the male.
The biggest reorganization of genes occurs during young adulthood, peaking around age 26, the team found. These changes affected the same genes that are associated with schizophrenia.
The team says this could explain why people with schizophrenia do not show symptoms until young adulthood, even though the genetic changes responsible for the condition are present from birth.
The study also found the genetic program is present in mice, too, although it changes more rapidly across their shorter lifespan. This suggests that the calendar of brain aging is shared between all mammals and may be millions of years old.
Researchers next plan to study how the genetic program is controlled, and that could lead to therapies that alter the course of brain aging, the scientists say. It could also hold clues to new treatments for schizophrenia and other mental health problems in young adults.
The research was published in the journal eLife.
Professor Seth Grant, Head of the Genes to Cognition Laboratory at the University of Edinburgh, said: “The discovery of this genetic program opens up a completely new way to understand behavior and brain diseases throughout life.”
Dr Nathan Skene, Research Scientist at the University of Edinburgh’s Centre for Clinical Brain Sciences, said: “Many people believe our brain simply wears out as we age. But our study suggests that brain aging is strictly controlled by our genes.”