Journal
GLIA
Volume 60, Issue 4, Pages 651-660Publisher
WILEY
DOI: 10.1002/glia.22299
Keywords
glia; astrocyte; potassium regulation; inward rectifying potassium channel; axon; CNS
Categories
Funding
- Medical Research Council
- MRC [G0900592] Funding Source: UKRI
- Medical Research Council [G0900592] Funding Source: researchfish
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Uptake of K+ released by axons during action potential propagation is a major function of astrocytes. Here, we demonstrate the importance of glial inward rectifying potassium channels (Kir) in regulating extracellular K+ ([K+]o) and axonal electrical activity in CNS white matter of the mouse optic nerve. Increasing optic nerve stimulation frequency from 1 Hz to 1035 Hz for 120 s resulted in a rise in [K+]o and consequent decay in the compound action potential (CAP), a measure of reduced axonal activity. On cessation of high frequency stimulation, rapid K+ clearance resulted in a poststimulus [K+]o undershoot, followed by a slow recovery of [K+]o and the CAP, which were more protracted with increasing stimulation frequency. Blockade of Kir (100 mu M BaCl2) slowed poststimulus recovery of [K+]o and the CAP at all stimulation frequencies, indicating a primary function of glial Kir was redistributing K+ to the extracellular space to offset active removal by Na+-K+ pumps. At higher levels of axonal activity, Kir blockade also increased [K+]o accumulation, exacerbating the decline in the CAP and impeding its subsequent recovery. In the Kir4.1-/- mouse, astrocytes displayed a marked reduction of inward currents and were severely depolarized, resulting in retarded [K+]o regulation and reduced CAP. The results demonstrate the importance of glial Kir in K+ spatial buffering and sustaining axonal activity in the optic nerve. Glial Kir have increasing importance in K+ clearance at higher levels of axonal activity, helping to maintain the physiological [K+]o ceiling and ensure the fidelity of signaling between the retina and brain. (c) 2012 Wiley Periodicals, Inc.
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