Journal
JOURNAL OF PHYSICAL CHEMISTRY LETTERS
Volume 9, Issue 8, Pages 2009-2014Publisher
AMER CHEMICAL SOC
DOI: 10.1021/acs.jpclett.8b00324
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Funding
- National Natural Science Foundation of China [51535005, 51472117]
- Research Fund of State Key Laboratory of Mechanics and Control of Mechanical Structures [MCMS-0416K01, MCMS-0416G01]
- Fundamental Research Funds for the Central Universities [NP2017101]
- Funding of Jiangsu Innovation Program for Graduate Education [KYLX15_0249]
- Priority Academic Program Development of Jiangsu Higher Education Institutions
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Microtubules, constituted by end-to-end negatively charged alpha- and beta-tubulin dimers, are long, hollow, pseudohelical cylinders with internal and external diameters of about 16 and 26 nm, respectively, and widely exist in cell cytoplasm, neuron axons, and dendrites. Although their structural functions in physiological processes, such as cell mitosis, cell motility, and motor protein transport, have been widely accepted, their role in neuron activity remains attractively elusive. Here we show a new function of microtubules: they can generate instant response to a calcium pulse because of their specific permeability for ions. Our comprehensive simulations from all-atom molecular dynamics to potential of mean force and continuum modeling reveal that K+ and Na+ ions can permeate through the nanopores in the microtubule wall easily, while Ca+ ions are blocked by the wall with a much higher free energy barrier. These cations are adsorbed to the surfaces of the wall with affinity decreasing in the sequence Ca2+, Na+, and K+. As a result, when the concentration of Ca2+ ions increases outside the microtubule during neuronal excitation, K+ and N+ ions will be triggering subsequent axial ion redistribution within the microtubule. The results shed light on the possibility of the ion permeable microtubules being involved in neural signal processing.
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