In humans, neurogenesis, or the formation of new neurons, largely ceases in most areas of the brain during adulthood. However, evidence is strong that substantial numbers of new neurons are naturally generated in two parts of the brain: the hippocampus, which is involved in forming, organizing and storing memory; and the olfactory bulb, involved in the perception of odor.
Researchers at the University of Virginia Health System have made a pivotal discovery in understanding this complicated process, and their findings could one day help scientists devise novel therapies to promote neurogenesis in the adult brain. This could re-establish brain function in patients suffering from depression, post-traumatic stress disorder and other mental disorders in which adult neurogenesis is impaired.
The findings appear in a study published online July 31 in the journal Nature Cell Biology.
The study was led by Jonathan Kipnis, associate professor of neuroscience, and Kodi S. Ravichandran, chair of the Department of Microbiology and director of the U.Va. Center for Cell Clearance. Zhenjie Lu, a senior research associate in the Department of Neuroscience, is the first author on this work and was instrumental in combining the methodologies in the Kipnis lab (which focuses on basic mechanisms underlying neurological disorders) and the Ravichandran lab (which focuses on cell clearance) to address adult neurogenesis through a combination of studies in normal and genetically altered mice, and studies using neuronal cultures.
Through their research, the scientists discovered that certain types of progenitor cells, called the doublecortin (DCX)-positive neuronal progenitors (or "newborn neurons"), serve a dual role in regulating production and elimination of new brain cells. Progenitor cells generally act as a repair system for the body, replenishing special cells and maintaining blood, skin and intestinal tissues. This new discovery points to the ability of these cells to clean each other out, which ultimately benefits the regeneration process.