Subthreshold membrane resonance in neocortical neurons

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Subthreshold membrane resonance in neocortical neurons

B. Hutcheon, R. M. Miura and E. Puil
Department of Pharmacology and Therapeutics, Faculty of Medicine, University of British Columbia, Vancouver, Canada.

1. Using whole cell recording techniques, we studied subthreshold and suprathreshold voltage responses to oscillatory current inputs in neurons from the sensorimotor cortex of juvenile rats. 2. Based on firing patterns, neurons were classified as regular spiking (RS), intrinsic bursting (IB), and fast spiking (FS). The subthreshold voltage-current relationships of RS and IB neurons were rectifying whereas FS neurons were almost ohmic near rest. 3. Frequency response curves (FRCs) for neurons were determined by analyzing the frequency content of inputs and outputs. The FRCs of most neurons were voltage dependent at frequencies below, but not above, 20 Hz. Approximately 60% of RS and IB neurons had a membrane resonance at their resting potential. Resonant frequencies were between 0.7 and 2.5 Hz (24-26 degrees C) near -70 mV and usually increased with hyperpolarization and decreased with depolarization. The remaining RS and IB neurons and all FS neurons were nonresonant. 4. Resonant neurons near rest had a selective coupling between oscillatory inputs and firing. These neurons selectively fired action potentials when the frequency of the swept-sine-wave (ZAP) current input was near the resonant frequency. However, when these neurons were depolarized to -60 mV, spike firing was associated with many input frequencies rather than selectively near the resonant frequency. 5. We examined three subthreshold currents that could cause low-frequency resonance: IH, a slow, hyperpolarization-activated cation current that was blocked by external Cs+ but not Ba2+; IIR, an instantaneously activating, inwardly rectifying K+ current that was blocked by both Cs+ and Ba2+; and INaP, an quickly activating, inwardly rectifying persistent Na+ current that was blocked by tetrodotoxin (TTX). Voltage-clamp experiments defined the relative steady state activation ranges of these currents. IIR (activates below -80 mV) and INaP (activates above -65 mV) are unlikely to interact with each other because their activation ranges never overlap. However, both currents may interact with IH, which activated variably at potentials between -50 and -90 mV in different neurons. 6. We found that IH produces subthreshold response. Consistent with this, subthreshold resonance was blocked by external Cs+ but not Ba2+ or TTX. Application of Ba2+ enlarged FRCs and resonance at potentials below -80 mV, indicating that IK,ir normally attenuates resonance. Application of TTX greatly diminished resonance at potentials more depolarized than -65 mV, indicating that INaP normally amplifies resonance at these potentials. 7. The ZAP current input may be viewed as a model of oscillatory currents that arise in neocortical neurons during synchronized activity in the brain. We propose that the frequency selectivity endowed on neurons by IH may contribute to their participation in synchronized firing. The voltage dependence of the frequency-selective coupling between oscillatory inputs and spikes may indicate a novel mechanism for controlling the extent of low-frequency synchronized activity in the neocortex.

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				M. A. Castro-Alamancos, P. Rigas, and Y. Tawara-Hirata Resonance (~10 Hz) of excitatory networks in motor cortex: effects of voltage-dependent ion channel blockers J. Physiol., January 1, 2007; 578(1): 173 - 191. [Abstract] [Full Text] [PDF]

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				S. Schreiber, I. Erchova, U. Heinemann, and A. V. M. Herz Subthreshold Resonance Explains the Frequency-Dependent Integration of Periodic as Well as Random Stimuli in the Entorhinal Cortex J Neurophysiol, July 1, 2004; 92(1): 408 - 415. [Abstract] [Full Text] [PDF]

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ARTICLES

Subthreshold membrane resonance in neocortical neurons

				M. E. HASSELMO, E. FRANSEN, C. DICKSON, and A. A. ALONSO Computational Modeling of Entorhinal Cortex Ann. N.Y. Acad. Sci., June 1, 2000; 911(1): 418 - 446. [Abstract] [Full Text] [PDF]

				C. T. Dickson, J. Magistretti, M. H. Shalinsky, E. Fransen, M. E. Hasselmo, and A. Alonso Properties and Role of Ih in the Pacing of Subthreshold Oscillations in Entorhinal Cortex Layer II Neurons J Neurophysiol, May 1, 2000; 83(5): 2562 - 2579. [Abstract] [Full Text] [PDF]

				R. Amir, M. Michaelis, and M. Devor Membrane Potential Oscillations in Dorsal Root Ganglion Neurons: Role in Normal Electrogenesis and Neuropathic Pain J. Neurosci., October 1, 1999; 19(19): 8589 - 8596. [Abstract] [Full Text] [PDF]

				K. R. Alper The EEG and Cocaine Sensitization: A Hypothesis J Neuropsychiatry Clin Neurosci, May 1, 1999; 11(2): 209 - 221. [Abstract] [Full Text]

				M. Kubota and I. Taniguchi Electrophysiological Characteristics of Classes of Neuron in the HVc of the Zebra Finch J Neurophysiol, August 1, 1998; 80(2): 914 - 923. [Abstract] [Full Text] [PDF]

				H.-C. Pape and R. B. Driesang Ionic Mechanisms of Intrinsic Oscillations in Neurons of the Basolateral Amygdaloid Complex J Neurophysiol, January 1, 1998; 79(1): 217 - 226. [Abstract] [Full Text] [PDF]

				F. Tennigkeit, C. R. Ries, D. W.�F. Schwarz, and E. Puil Isoflurane Attenuates Resonant Responses of Auditory Thalamic Neurons J Neurophysiol, August 1, 1997; 78(2): 591 - 596. [Abstract] [Full Text] [PDF]