Sequential Activation of P75 and TrkB is Involved in Dendritic Development of Subventricular Zone-derived Neuronal Progenitors in Vitro

Overview

Journal Eur J Neurosci

Specialty Neurology

Date 2005 Jan 19

PMID 15654844

Citations 26

Authors

E Gascon

L Vutskits

H Zhang

M J Barral-Moran

P J Kiss

C Mas

J Z Kiss

Affiliations

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Abstract

Dendritic arbor development of subventricular zone-derived interneurons is a critical step in their integration into functional circuits of the postnatal olfactory bulb. However, the mechanism and molecular control of this process remain unknown. In this study, we have developed a culture model where dendritic development of purified subventricular zone cells proceeds under serum-free conditions in the absence of added growth factors and non-neural cells. We demonstrate that the large majority of these cells in culture express GABA and elaborate dendritic arbors with spine-like protrusions but they do not possess axons. These neurons expressed receptors for neurotrophins including p75, TrkB and TrkC but not TrkA. Application of exogenous neurotrophins, including brain-derived neurotrophic factor (BDNF), neurotrophin-3 (NT3) and nerve growth factor (NGF), to cultures stimulated dendritic growth and led to more complex dendritic arbors during the initial 3 days in culture. Our results suggest that these effects are independent of Trk receptors and mediated by the p75/ceramide signaling pathway. We also show that brain-derived neurotrophic factor is the only neurotrophin that is able to influence late-phase dendritic development via TrkB receptor activation. These results suggest that dendritic arbor development of subventricular zone-derived cells may be regulated by neurotrophins through the activation of p75 and the TrkB receptor signaling pathways in a sequentially defined temporal pattern.

Citing Articles

Neurotrophic Factors and Dendritic Spines.

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Tacke C, DiStefano P, Lindsay R, Metzdorf K, Zagrebelsky M, Korte M Front Mol Neurosci. 2022; 15:945348.

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Intervention of Brain-Derived Neurotrophic Factor and Other Neurotrophins in Adult Neurogenesis.

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Distinct Effects of BDNF and NT-3 on the Dendrites and Presynaptic Boutons of Developing Olfactory Bulb GABAergic Interneurons In Vitro.

Nieto-Estevez V, Defterali C, Vicario C Cell Mol Neurobiol. 2021; 42(5):1399-1417.

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Genetic Increases in Olfactory Bulb BDNF Do Not Enhance Survival of Adult-Born Granule Cells.

McDole B, Berger R, Guthrie K Chem Senses. 2019; 45(1):3-13.

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