Journal article
Tau Is Enriched on Dynamic Microtubules in the Distal Region of Growing Axons
The Journal of neuroscience, v 16(11), pp 3601-3619
01 Jun 1996
PMID: 8642405
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Abstract
It is widely held that tau determines the stability of microtubules in growing axons, although direct evidence supporting this hypothesis is lacking. Previous studies have shown that the microtubule polymer in the distal axon and growth cone is the most dynamic of growing axons; it turns over more rapidly and is more sensitive to microtubule depolymerizing drugs than the polymer situated proximally. We reasoned that if the stability of axonal microtubules is directly related to their content of tau, then the polymer in the distal axon should have less tau than the polymer in the proximal axon. We tested this proposition by measuring the relative tau content of microtubules along growing axons of cultured sympathetic neurons immunostained for tau and tubulin. Our results show that the tau content of microtubules varies along the axon, but in the opposite way predicted. Specifically, the relative tau content of microtubules increases progressively along the axon to reach a peak near the growth cone that is severalfold greater than that observed proximally. Thus, tau is most enriched on the most dynamic polymer of the axon. We also show that the gradient in tau content of microtubules does not generate corresponding gradients in the extent of tubulin assembly or in the sensitivity of axonal microtubules to nocodazole. On the basis of these findings, we propose that tau in growing axons has functions other than promoting microtubule assembly and stability and that key sites for these functions are the distal axon and growth cone.
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Details
- Title
- Tau Is Enriched on Dynamic Microtubules in the Distal Region of Growing Axons
- Creators
- Mark M BlackTheresa SlaughterSimon MoshiachMaria ObrockaItzhak Fischer
- Publication Details
- The Journal of neuroscience, v 16(11), pp 3601-3619
- Publisher
- Society for Neuroscience
- Resource Type
- Journal article
- Language
- English
- Academic Unit
- Neurobiology and Anatomy
- Web of Science ID
- WOS:A1996UM25500005
- Scopus ID
- 2-s2.0-0029922250
- Other Identifier
- 991014877693704721
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- Collaboration types
- Domestic collaboration
- Web of Science research areas
- Neurosciences