期刊
FRONTIERS IN MOLECULAR NEUROSCIENCE
卷 15, 期 -, 页码 -出版社
FRONTIERS MEDIA SA
DOI: 10.3389/fnmol.2022.927195
关键词
axonal transport; kinesin; dynein; tau; Alzheimer's disease (AD); mitochondria; P301L
资金
- Indian Council of Medical Research (ICMR)
- DST-INSPIRE [2019-2857]
- CSIR [DST/INSPIRE/04/2019/001239]
- DBT
Mitochondrial transport and distribution are altered in tauopathy neurons, with reduced anterograde transport and unchanged retrograde transport. The decrease in kinesin-mediated transport and the increase in dynein activity might contribute to the reduced axonal mitochondria in tauopathy neurons, thereby contributing to synaptic deficits in Alzheimer's disease and other tauopathies.
Mitochondria are essential organelle required for neuronal homeostasis. Mitochondria supply ATP and buffer calcium at synaptic terminals. However, the complex structural geometry of neurons poses a unique challenge in transporting mitochondria to synaptic terminals. Kinesin motors supply mitochondria to the axonal compartments, while cytoplasmic dynein is required for retrograde transport. Despite the importance of presynaptic mitochondria, how and whether axonal mitochondrial transport and distribution are altered in tauopathy neurons remain poorly studied. In the current study, we have shown that anterograde transport of mitochondria is reduced in P301L neurons, while there is no change in the retrograde transport. Consistently, axonal mitochondrial abundance is reduced in P301L neurons. We further studied the possible role of two opposing motor proteins on mitochondrial transport and found that mitochondrial association of kinesin is decreased significantly in P301L cells. Interestingly, fitting our experimental data into mathematical equations suggested a possible rise in dynein activity to maintain retrograde flux in P301L cells. Our data indicate that decreased kinesin-mediated transport coupled with sustained retrograde transport might reduce axonal mitochondria in tauopathy neurons, thus contributing to the synaptic deficits in Alzheimer's disease (AD) and other tauopathies.
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