Abstract
Impact statement
A novel regulatory cascade downstream of Tau and spectraplakins delivers synaptic proteins to axonal terminals in the developing and ageing brain, providing potential explanations for precocious synapse loss in dementias.
Abstract
The mechanisms regulating synapse numbers during development and ageing are essential for normal brain function and closely linked to brain disorders including dementias. Using Drosophila, we demonstrate roles of the microtubule-associated protein Tau in regulating synapse numbers, thus unravelling an important cellular requirement of normal Tau. In this context, we find that Tau displays a strong functional overlap with microtubule-binding spectraplakins, establishing new links between two different neurodegenerative factors. Tau and the spectraplakin Short Stop act upstream of a three-step regulatory cascade ensuring adequate delivery of synaptic proteins. This cascade involves microtubule stability as the initial trigger, JNK signalling as the central mediator, and kinesin-3 mediated axonal transport as the key effector. This cascade acts during development (synapse formation) and ageing (synapse maintenance) alike. Therefore, our findings suggest novel explanations for intellectual disability in Tau deficient individuals, as well as early synapse loss in dementias including Alzheimer’s disease.
A novel regulatory cascade downstream of Tau and spectraplakins delivers synaptic proteins to axonal terminals in the developing and ageing brain, providing potential explanations for precocious synapse loss in dementias.
Abstract
The mechanisms regulating synapse numbers during development and ageing are essential for normal brain function and closely linked to brain disorders including dementias. Using Drosophila, we demonstrate roles of the microtubule-associated protein Tau in regulating synapse numbers, thus unravelling an important cellular requirement of normal Tau. In this context, we find that Tau displays a strong functional overlap with microtubule-binding spectraplakins, establishing new links between two different neurodegenerative factors. Tau and the spectraplakin Short Stop act upstream of a three-step regulatory cascade ensuring adequate delivery of synaptic proteins. This cascade involves microtubule stability as the initial trigger, JNK signalling as the central mediator, and kinesin-3 mediated axonal transport as the key effector. This cascade acts during development (synapse formation) and ageing (synapse maintenance) alike. Therefore, our findings suggest novel explanations for intellectual disability in Tau deficient individuals, as well as early synapse loss in dementias including Alzheimer’s disease.
Original language | English |
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Article number | e14694 |
Journal | eLife |
Volume | 5 |
DOIs | |
Publication status | Published - 8 Aug 2016 |
Keywords
- tau
- neurodegeneration
- axons
- cytoskeleton
- Drosophila
- tauopathies
- Synapse development
- Synapses/pathology/*physiology
- Kinesin
- axonal transport
- JNK
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