The progressive degeneration and death of the brain, occurring in many neurodegenerative diseases, is often seen as an unstoppable and irrevocable process. However, the brain has some self-repairing potential that accounts for the renewal of certain neuronal populations living in the dentate gyrus, a simple cortical region that is part of the larger functional brain system controlling learning and memory, the hippocampus. This process is known as neurogenesis.
While increased neurogenesis has been reported in neurodegenerative diseases in the past, its significance is unclear. Now a research team, led by Dr
Using a model of prion disease from mice, the research identified the time-course of the generation of these newborn neurons and how they integrate into the brain circuitry. While this self-repairing mechanism is effective in maintaining some neuronal functions at early and mid-stages of the disease, it fails at more advanced phases. This highlights a temporal window for potential therapeutic intervention, in order to preserve the beneficial effects of enhanced neurogenesis.
Dr Gomez-Nicola says: "This study highlights the latent potential of the brain to orchestrate a self-repairing response. The continuation of this line of research is opening new avenues to identify what specific signals are used to promote this increased neurogenic response, with views focused in targeting neurogenesis as a therapeutic approach to promote the regeneration of lost neurons."
The study, which is published in the journal Brain, also involves Professor
Keywords for this news article include: Neurogenetics, Nervous System Diseases,
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