Abstract

The long range goals of this project are to characterize the basic mechanisms underlying activity of voltage-dependent ion channels, and the roles that ion channels play in the electrical activity of neurons.
The specific aims for the next grant period focus on T-type calcium channels and delayed rectifier potassium channels, with emphasis on channel inactivation. Most studies will deal with biophysical characterization of these channels in a heterologous expression system, human embryonic kidney (HEK 293) cells, but experiments will also be performed on channels natively expressed in neurons (mostly, acutely isolated thalamic relay neurons). There are four specific aims: (1) Kinetics of the alpha1G T-type calcium channel. The kinetics of activation and inactivation will be examined. Specific questions include the state-dependence of inactivation and recovery, the completeness of inactivation at steady-state, and the basis of cumulative inactivation during repetitive depolarization. One goal is construction of a kinetic model, which will be used in the future both as an operational model and as a basis for structure-function studies of the molecular mechanism of channel gating. (2) Kinetics of T-currents in thalamic neurons. The properties of native T-currents will be compared qualitatively and quantitatively to alpha1G, to determine whether the kinetic model developed for alpha1G in HEK 293 cells is applicable to neuronal T-current. (3) Permeation and gating of the Kv2.1 potassium channel in low K+. The basis of the slow channel closing observed with Na+ as the permeant ion will be investigated, to determine whether it reflects effects of permeant ions on channel activation, or induction of a Na+- permeable """"""""inactivated"""""""" state. It will be determined whether long depolarizations induce changes in ion selectivity, or """"""""immobilization"""""""" of gating charge. (4) Inactivation of native potassium channels. The voltage-dependence of inactivation, and cumulative inactivation during repetitive pulses, will be examined for delayed rectifiers of frog sympathetic neurons and rat thalamic neurons, to test for inactivation from closed states.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Neurological Disorders and Stroke (NINDS)
Type
Research Project (R01)
Project #
5R01NS024471-18
Application #
6637650
Study Section
Special Emphasis Panel (ZRG1-MDCN-3 (01))
Program Officer
Stewart, Randall
Project Start
1984-04-01
Project End
2004-02-29
Budget Start
2003-03-01
Budget End
2004-02-29
Support Year
18
Fiscal Year
2003
Total Cost
$219,552
Indirect Cost

  Institution

Name
Case Western Reserve University
Department
Physiology
Type
Schools of Medicine
DUNS #
077758407
City
Cleveland
State
OH
Country
United States
Zip Code
44106

  Publications

Lopin, Kyle V; Gray, I Patrick; Obejero-Paz, Carlos A et al. (2012) Feýýýýý block and permeation of CaV3.1 (ýý1G) T-type calcium channels: candidate mechanism for non-transferrin-mediated Feýýýýý influx. Mol Pharmacol 82:1194-204
Jones, Stephen W; Friel, David D (2006) The amplitude distribution of release events through a fusion pore. Biophys J 90:L39-41
Obejero-Paz, Carlos A; Gray, I Patrick; Jones, Stephen W (2004) Y3+ block demonstrates an intracellular activation gate for the alpha1G T-type Ca2+ channel. J Gen Physiol 124:631-40
Jones, Stephen W (2003) Calcium channels: unanswered questions. J Bioenerg Biomembr 35:461-75
Frazier, C J; Serrano, J R; George, E G et al. (2001) Gating kinetics of the alpha1I T-type calcium channel. J Gen Physiol 118:457-70
Serrano, J R; Dashti, S R; Perez-Reyes, E et al. (2000) Mg(2+) block unmasks Ca(2+)/Ba(2+) selectivity of alpha1G T-type calcium channels. Biophys J 79:3052-62
Frazier, C J; George, E G; Jones, S W (2000) Apparent change in ion selectivity caused by changes in intracellular K(+) during whole-cell recording. Biophys J 78:1872-80
Serrano, J R; Perez-Reyes, E; Jones, S W (1999) State-dependent inactivation of the alpha1G T-type calcium channel. J Gen Physiol 114:185-201
Kammermeier, P J; Jones, S W (1998) Facilitation of L-type calcium current in thalamic neurons. J Neurophysiol 79:410-7
Block, B M; Stacey, W C; Jones, S W (1998) Surface charge and lanthanum block of calcium current in bullfrog sympathetic neurons. Biophys J 74:2278-84

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