Outgrowth of the dendrites and the axon is the basis of the establishment of the neuronal shape, and it requires addition of new membrane to both growing processes. It is not yet clear whether one or two exocytotic pathways are responsible for the respective outgrowth of axons and dendrites. We have previously shown that tetanus neurotoxin-insensitive vesicle-associated membrane protein (TI-VAMP) defines a novel network of tubulovesicular structures present both at the leading edge of elongating dendrites and axons of immature hippocampal neurons developing in primary culture and that TI-VAMP is an essential protein for neurite outgrowth in PC12 cells. Here we show that the expression of the N-terminal domain of TI-VAMP inhibits the outgrowth of both dendrites and axons in neurons in primary culture. This effect is more prominent at the earliest stages of the development of neurons in vitro. Expression of the N-terminal domain deleted form of TI-VAMP has the opposite effect. This constitutively active form of TI-VAMP localizes as the endogenous protein, particularly concentrating at the leading edge of growing axons. Our results suggest that a common exocytotic mechanism that relies on TI-VAMP mediates both axonal and dendritic outgrowth in developing neurons.

Martinez Arca, S., Coco, S., Mainguy, G., Schenk, U., Alberts, P., Bouillé, P., et al. (2001). A common exocytotic mechanism mediates axonal and dendritic outgrowth. THE JOURNAL OF NEUROSCIENCE, 21(11), 3830-3838.

A common exocytotic mechanism mediates axonal and dendritic outgrowth

COCO, SILVIA
Primo
;
2001

Abstract

Outgrowth of the dendrites and the axon is the basis of the establishment of the neuronal shape, and it requires addition of new membrane to both growing processes. It is not yet clear whether one or two exocytotic pathways are responsible for the respective outgrowth of axons and dendrites. We have previously shown that tetanus neurotoxin-insensitive vesicle-associated membrane protein (TI-VAMP) defines a novel network of tubulovesicular structures present both at the leading edge of elongating dendrites and axons of immature hippocampal neurons developing in primary culture and that TI-VAMP is an essential protein for neurite outgrowth in PC12 cells. Here we show that the expression of the N-terminal domain of TI-VAMP inhibits the outgrowth of both dendrites and axons in neurons in primary culture. This effect is more prominent at the earliest stages of the development of neurons in vitro. Expression of the N-terminal domain deleted form of TI-VAMP has the opposite effect. This constitutively active form of TI-VAMP localizes as the endogenous protein, particularly concentrating at the leading edge of growing axons. Our results suggest that a common exocytotic mechanism that relies on TI-VAMP mediates both axonal and dendritic outgrowth in developing neurons.
Articolo in rivista - Articolo scientifico
Animals; Autoantigens; Axons; Brain; Calcium-Binding Proteins; Calreticulin; Cells, Cultured; Dendrites; Electroporation; Endocytosis; Exocytosis; Gene Expression; Green Fluorescent Proteins; In Vitro Techniques; Luminescent Proteins; Membrane Proteins; Mice; Neurons; Protein Isoforms; Protein Structure, Tertiary; Qa-SNARE Proteins; R-SNARE Proteins; Rats; Recombinant Fusion Proteins; Ribonucleoproteins; Transfection
English
2001
21
11
3830
3838
none
Martinez Arca, S., Coco, S., Mainguy, G., Schenk, U., Alberts, P., Bouillé, P., et al. (2001). A common exocytotic mechanism mediates axonal and dendritic outgrowth. THE JOURNAL OF NEUROSCIENCE, 21(11), 3830-3838.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/158852
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