James A. Bell scite author profile

Intrinsic GABAergic interneurons provide inhibitory input to the principal neurons of the hippocampus. The majority of interneurons located in stratum oriens (s.o.) of the CA1 region express the hyperpolarization-activated cation current known as I(h). In an effort to elucidate the role of this current in regulating the baseline excitability of these neurons and its participation in the regulation of the release of GABA onto CA1 pyramidal neurons, we utilized whole cell electrophysiological recordings from both populations of cells. In voltage-clamp experiments, hyperpolarization of the interneuron membrane initiated a large inward current with an estimated activation threshold of 51.6 +/- 7.6 mV and a half-maximal voltage of -73.0 +/- 7.0 mV. This current was blocked by bath application of the I(h) inhibitors ZD 7288 (50 microM) or cesium (2 mM). Current-clamp experiments at the interneuron resting membrane potential (-61.3 +/- 1.2 mV) revealed a significant hyperpolarization, a decrease in the rate of spontaneous action potential discharge, an increase in the cellular input resistance, and the elimination of rebound afterdepolarizations during blockade of I(h) with ZD 7288 (50 microM). The hyperpolarizing effect of ZD 7288 was also substantially larger in interneurons clamped near -80 mV using current injection through the pipette. In addition to neurons exhibiting I(h), recordings were obtained from a small population of s.o. interneurons that did not exhibit this current. These cells demonstrated resting membrane potentials that were significantly more negative (-73.6 +/- 5.5 mV) than those observed in neurons expressing I(h), suggesting that this current contributes to more depolarized membrane potentials in these cells. Recordings from postsynaptic pyramidal neurons demonstrated that blockade of I(h) with ZD 7288 caused a substantial reduction (approximately 43%) in the frequency of spontaneous action potential-dependent inhibitory postsynaptic currents (IPSCs), without altering their average amplitude. However, miniature action-potential-independent IPSC frequency, amplitude, and decay kinetics were unaltered by ZD 7288. These data suggest that I(h) is active at the resting membrane potential in s.o. interneurons and as a result contributes to the spontaneous activity of these cells and to the tonic inhibition of CA1 pyramidal neurons in the hippocampus.

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Regulation of the NMDA receptor by redox phenomena: inhibitory role of ascorbate

Majewska

1990

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Improved early clinical development through human microdosing studies

Wilding¹,

Bell²

2005

Drug Discovery Today

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Spontaneous Periodic Hypothermia: Diencephalic Epilepsy

Fox¹,

Wilkins²,

Bell³

et al. 1973

BMJ

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Co-treatment with MK-801 potentiates naloxone-predpitated morphine withdrawal in the isolated spinal cord of the neonatal rat

Bell

Beglan

1995

European Journal of Pharmacology

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James A. Bell

Contribution of the Hyperpolarization-Activated Current (I _h) to Membrane Potential and GABA Release in Hippocampal Interneurons

Regulation of the NMDA receptor by redox phenomena: inhibitory role of ascorbate

Improved early clinical development through human microdosing studies

Spontaneous Periodic Hypothermia: Diencephalic Epilepsy

Co-treatment with MK-801 potentiates naloxone-predpitated morphine withdrawal in the isolated spinal cord of the neonatal rat

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James A. Bell

Contribution of the Hyperpolarization-Activated Current (I h) to Membrane Potential and GABA Release in Hippocampal Interneurons

Regulation of the NMDA receptor by redox phenomena: inhibitory role of ascorbate

Improved early clinical development through human microdosing studies

Spontaneous Periodic Hypothermia: Diencephalic Epilepsy

Co-treatment with MK-801 potentiates naloxone-predpitated morphine withdrawal in the isolated spinal cord of the neonatal rat

Contact Info

Product

Resources

About

Contribution of the Hyperpolarization-Activated Current (I _h) to Membrane Potential and GABA Release in Hippocampal Interneurons