Endocytotic Elimination and Domain-Selective Tethering Constitute a Potential Mechanism of Protein Segregation at the Axonal Initial Segment

The axonal initial segment is a unique subdomain of the neuron that maintains cellular polarization and contributes to electrogenesis. To obtain new insights into the mechanisms that determine protein segregation in this subdomain, we analyzed the trafficking of a reporter protein containing the cyt...

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Bibliographic Details
Published in:The Journal of cell biology 2004-08, Vol.166 (4), p.571-578
Main Authors: Fache, Marie-Pierre, Moussif, Anissa, Fernandes, Fanny, Giraud, Pierre, Garrido, Juan José, Dargent, Bénédicte
Format: Article
Language:English
Subjects:
Amino Acid Motifs
Amino Acid Sequence
Animals
Ankyrins
Antibodies
Axons
Axons - chemistry
Axons - metabolism
Brefeldin A - pharmacology
CD4 Antigens - biosynthesis
Cells
Cellular biology
Chimeras
COS Cells
Cytoplasm - metabolism
Dendrites
Detergents - pharmacology
DNA - metabolism
Endocytosis
Glutamic Acid - chemistry
Hippocampus - cytology
Hippocampus - embryology
Hippocampus - metabolism
Hippocampus - pathology
Kinetics
Membranes
Microscopy, Confocal
Microscopy, Fluorescence
Molecular Sequence Data
Neurons
Neurons - metabolism
Neurons - pathology
Point Mutation
Protein Structure, Tertiary
Proteins
Rats
Sodium channels
Sodium Channels - chemistry
Sodium Channels - genetics
Sodium Channels - metabolism
Time Factors
Transfection
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Summary:The axonal initial segment is a unique subdomain of the neuron that maintains cellular polarization and contributes to electrogenesis. To obtain new insights into the mechanisms that determine protein segregation in this subdomain, we analyzed the trafficking of a reporter protein containing the cytoplasmic II-III linker sequence involved in sodium channel targeting and clustering (Garrido, J.J., P. Giraud, E. Carlier, F. Fernandes, A. Moussif, M.P. Fache, D. Debanne, and B. Dargent. 2003. Science. 300: 2091-2094). Here, we show that this reporter protein is preferentially inserted in the somatodendritic domain and is trapped at the axonal initial segment by tethering to the cytoskeleton, before its insertion in the axonal tips. The nontethered population in dendrites, soma, and the distal part of axons is subsequently eliminated by endocytosis. We provide evidence for the involvement of two independent determinants in the II-III linker of sodium channels. These findings indicate that endocytotic elimination and domain-selective tethering constitute a potential mechanism of protein segregation at the axonal initial segment of hippocampal neurons.
ISSN:0021-9525
1540-8140
DOI:10.1083/jcb.200312155