Biophysical and pharmacological characterization of inwardly rectifying K+ currents in rat spinal cord astrocytes

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Biophysical and pharmacological characterization of inwardly rectifying K+ currents in rat spinal cord astrocytes

C. B. Ransom and H. Sontheimer
Department of Neurology, Yale University School of Medicine, New Haven, Connecticut 06510.

1. Whole cell and cell-attached patch-clamp recordings were obtained from rat spinal cord astrocytes maintained in culture for 6-14 days. It was found that the resting conductance in these astrocytes is primarily due to inwardly rectifying K+ (Kir) channels. 2. Two types of astrocytic Kir channels were identified with single-channel conductances of approximately 28 and approximately 80 pS, respectively. Channels displayed some voltage dependence in their open probability, which was largest (0.8-0.9) near the K+ equilibrium potential (Ek) and decreased at more negative potentials. The resting potential closely followed Ek, so it can be assumed that Kir channels have a high open probability at the resting potential. 3. The conductance of inwardly rectifying K+ currents (Kir) depended strongly on [K+]o and was approximately proportional to the square-root of [K+]o. 4. Kir currents inactivated in a time- and voltage-dependent manner. The Na+ dependence of inactivation was studied with ion substitution experiments. Replacement of [Na+]o with choline or Li+ removed inactivation. This dependence of current inactivation on [Na+]o resembles the previously described block of Kir channels in other systems by [Na+]o. 5. Kir currents were also blocked in a dose-dependent manner by Cs+ (Kd = 189 microM at -140 mV), Ba2+ (Kd = 3.5 microM), and tetraethylammonium (TEA; 90% block at 10 mM) but were insensitive to 4-aminopyridine (4-AP; 5 mM). In the current-clamp mode, Ba2+ and TEA inhibition of Kir currents was associated with a marked depolarization, suggesting that Kir channel activity played a role in the establishment of the negative resting potential typical of astrocytes. 6. These biophysical features of astrocyte inwardly rectifying K+ channels are consistent with those properties required for their proposed involvement in [K+]o clearance: 1) high open probability at the resting potential, 2) increasing conductance with increasing [K+]o, and 3) rectification, e.g., channel closure, at positive potentials. It is proposed, therefore, that the dissipation of [K+]o following neuronal activity is mediated primarily by the activity of astrocytic Kir channels.

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				J. Skov, S. Nedergaard, and M. Andreasen New Type of Synaptically Mediated Epileptiform Activity Independent of Known Glutamate and GABA Receptors J Neurophysiol, April 1, 2005; 93(4): 1845 - 1856. [Abstract] [Full Text] [PDF]

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				R. D'Ambrosio, D. S. Gordon, and H. R. Winn Differential Role of KIR Channel and Na+/K+-Pump in the Regulation of Extracellular K+ in Rat Hippocampus J Neurophysiol, January 1, 2002; 87(1): 87 - 102. [Abstract] [Full Text] [PDF]

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ARTICLES

Biophysical and pharmacological characterization of inwardly rectifying K+ currents in rat spinal cord astrocytes

				Z.-Q. Xiong and J. L. Stringer Sodium Pump Activity, Not Glial Spatial Buffering, Clears Potassium After Epileptiform Activity Induced in the Dentate Gyrus J Neurophysiol, March 1, 2000; 83(3): 1443 - 1451. [Abstract] [Full Text] [PDF]

				Z.-Q. Xiong and J. L. Stringer Cesium Induces Spontaneous Epileptiform Activity Without Changing Extracellular Potassium Regulation in Rat Hippocampus J Neurophysiol, December 1, 1999; 82(6): 3339 - 3346. [Abstract] [Full Text] [PDF]

				A. Bordey and H. Sontheimer Differential Inhibition of Glial K+ Currents by 4-AP J Neurophysiol, December 1, 1999; 82(6): 3476 - 3487. [Abstract] [Full Text] [PDF]

				M. Bikson, R. S. Ghai, S. C. Baraban, and D. M. Durand Modulation of Burst Frequency, Duration, and Amplitude in the Zero-Ca2+ Model of Epileptiform Activity J Neurophysiol, November 1, 1999; 82(5): 2262 - 2270. [Abstract] [Full Text] [PDF]

				R. D'Ambrosio, D. O. Maris, M. S. Grady, H. R. Winn, and D. Janigro Impaired K+ Homeostasis and Altered Electrophysiological Properties of Post-Traumatic Hippocampal Glia J. Neurosci., September 15, 1999; 19(18): 8152 - 8162. [Abstract] [Full Text] [PDF]

				H. Koller and H.-G. Fischer Cytokines and Virus Proteins: Modulators of Glial Electrophysiological Properties Neuroscientist, May 1, 1999; 5(3): 142 - 146. [Abstract] [PDF]

				R. D'Ambrosio, J. Wenzel, P. A. Schwartzkroin, G. M. McKhann II, and D. Janigro Functional Specialization and Topographic Segregation of Hippocampal Astrocytes J. Neurosci., June 15, 1998; 18(12): 4425 - 4438. [Abstract] [Full Text] [PDF]

				G. A. Kinney, P. J. Emmerson, and R. J. Miller Galanin Receptor-Mediated Inhibition of Glutamate Release in the Arcuate Nucleus of the Hypothalamus J. Neurosci., May 15, 1998; 18(10): 3489 - 3500. [Abstract] [Full Text] [PDF]

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