Adult hippocampal neurogenesis -or generation of new functional neurons- is important for memory formation, learning, fear conditioning, anxiety and antidepressant action. Neurogenesis decreases with aging and in some neurologic disorders such as temporal lobe epilepsy. Therefore, it has been proposed that reduced neurogenesis might be involved in the appearance of particular synptoms and cognitive deficits found in those conditions.
Adult hippocampal neurogenesis occurs due to the existence of a population of neural stem cells (NSCs) in the dentate gyrus. This population, however, declines with age because their activation is coupled to their exhaustion: NSCs remain quiescent and are activated progressively to divide asymmetrically giving rise to neuronal precursors. Once they finish their round of divisions they differentiate into astrocytes losing their stem cell capabilities. This decline of NSCs and neurogenesis that occurs in a natural manner with aging might result accelerated in situations in which neuronal activity is intensely increased, such as epilepsy, as the rate of NSC activation results elevated.
Thus, in order to prevent or recover the loss of neurogenesis it is essential to comprehend the mechanisms that translate neuronal activity into NSC activation, as well as the mechanisms controlling their intrinsic properties (self-renewal, mitotic capability, differentiation…), and those of the neurogenic process (proliferation and survival of intermediate precursors, differentiation of neuroblasts…). Our goal is to understand these mechanisms and learn to manipulate them in order to fight more efficiently against the cognitive deficits associated with the loss neurogenesis.
Life & Medical Sciences
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