Verónica del Carmen Piatti scite author profile

In the adult hippocampus and olfactory bulb, neural progenitor cells generate neurons that functionally integrate into the existing circuits. To understand how neuronal differentiation occurs in the adult hippocampus, we labeled dividing progenitor cells with a retrovirus expressing green fluorescent protein and studied the morphological and functional properties of their neuronal progeny over the following weeks. During the first week neurons had an irregular shape and immature spikes and were synaptically silent. Slow GABAergic synaptic inputs first appeared during the second week, when neurons exhibited spineless dendrites and migrated into the granule cell layer. In contrast, glutamatergic afferents were detected by the fourth week in neurons displaying mature excitability and morphology. Interestingly, fast GABAergic responses were the latest to appear. It is striking that neuronal maturation in the adult hippocampus follows a precise sequence of connectivity (silent 3 slow GABA 3 glutamate 3 fast GABA) that resembles hippocampal development. We conclude that, unlike what is observed in the olfactory bulb, the hippocampus maintains the same developmental rules for neuronal integration through adulthood.

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A Distinctive layering pattern of mouse dentate granule cells is generated by developmental and adult neurogenesis

Mathews

Morgenstern

Piatti

et al. 2010

J of Comparative Neurology

102

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New neurons are continuously added throughout life to the dentate gyrus of the mammalian hippocampus. During embryonic and early postnatal development, the dentate gyrus is formed in an outside-in layering pattern that may extend through adulthood. In this work we aimed to systematically quantify the relative position of dentate granule cells generated at different ages. We used 5’-bromo-2’-deoxyuridine (BrdU) and retroviral methodologies to birth-date cells born in the embryonic, early postnatal and adult hippocampus and assessed their final position in the adult mouse granule cell layer. We also quantified both developmental and adult-born cohorts of neural progenitor cells that contribute to the pool of adult progenitor cells. Our data confirm that the outside-in layering of the dentate gyrus continues through adulthood and that early-born cells constitute most of the adult dentate gyrus. We also found that a substantial fraction of the dividing cells in the adult dentate gyrus were derived from early-dividing cells and retained BrdU, suggesting that a subpopulation of hippocampal progenitors divides infrequently from early development on.

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Verónica del Carmen Piatti

Neuronal Differentiation in the Adult Hippocampus Recapitulates Embryonic Development

A Distinctive layering pattern of mouse dentate granule cells is generated by developmental and adult neurogenesis

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