The psa-ncam-positive “immature” neurons: An old discovery providing new vistas on brain structural plasticity
Articolo
Data di Pubblicazione:
2021
Abstract:
Studies on brain plasticity have undertaken different roads, tackling a wide range of biological processes: from small synaptic changes affecting the contacts among neurons at the very tip of their processes, to birth, differentiation, and integration of new neurons (adult neurogenesis). Stem cell-driven adult neurogenesis is an exception in the substantially static mammalian brain, yet, it has dominated the research in neurodevelopmental biology during the last thirty years. Studies of comparative neuroplasticity have revealed that neurogenic processes are reduced in large-brained mammals, including humans. On the other hand, large-brained mammals, with respect to rodents, host large populations of special “immature” neurons that are generated prenatally but express immature markers in adulthood. The history of these “immature” neurons started from studies on adhesion molecules carried out at the beginning of the nineties. The identity of these neurons as “stand by” cells “frozen” in a state of immaturity remained un-detected for long time, because of their ill-defined features and because clouded by research ef-forts focused on adult neurogenesis. In this review article, the history of these cells will be reconstructed, and a series of nuances and confounding factors that have hindered the distinction between newly generated and “immature” neurons will be addressed.
Tipologia CRIS:
03B-Review in Rivista / Rassegna della Lett. in Riv. / Nota Critica
Keywords:
Adhesion molecules; Brain plasticity; Comparative neuroplasticity; Hippocampus; Human brain; Neuronal markers; Piriform cortex; Animals; Cell Differentiation; Humans; Neural Cell Adhesion Molecule L1; Neural Stem Cells; Neurogenesis; Neuronal Plasticity; Neurons; Sialic Acids
Elenco autori:
Bonfanti L.; Seki T.
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