We studied the membrane currents of isolated cultured brown fat cells from neonatal rats using whole-cell and single-channel voltage-clamp recording. All brown fat cells that were recorded from had voltage-gated K currents as their predominant membrane current. No inward currents were seen in these experiments. The K currents of brown fat cells resemble the delayed rectifier currents of nerve and muscle cells. The channels were highly selective for K+, showing a 58-mV change in reversal potential for a 10-fold change in the external [K+]. Their selectivity was typical for K channels, with relative permeabilities of K+ greater than Rb+ greater than NH+4 much greater than Cs+, Na+. The K currents in brown adipocytes activated with a sigmoidal delay after depolarizations to membrane potentials positive to -50 mV. Activation was half maximal at a potential of -28 mV and did not require the presence of significant concentrations of internal calcium. Maximal voltage-activated K conductance averaged 20 nS in high external K+ solutions. The K currents inactivated slowly with sustained depolarization with time constants for the inactivation process on the order of hundreds of milliseconds to tens of seconds. The K channels had an average single-channel conductance of 9 pS and a channel density of approximately 1,000 channels/cell. The K current was blocked by tetraethylammonium or 4-aminopyridine with half maximal block occurring at concentrations of 1-2 mM for either blocker. K currents were unaffected by two blockers of Ca2+-activated K channels, charybdotoxin and apamin. Bath-applied norepinephrine did not affect the K currents or other membrane currents under our experimental conditions. These properties of the K channels indicate that they could produce an increase in the K+ permeability of the brown fat cell membrane during the depolarization that accompanies norepinephrine-stimulated thermogenesis, but that they do not contribute directly to the norepinephrine-induced depolarization.
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1 March 1989
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March 01 1989
Voltage-gated potassium channels in brown fat cells.
M T Lucero,
M T Lucero
Department of Animal Physiology, University of California, Davis 95616.
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P A Pappone
P A Pappone
Department of Animal Physiology, University of California, Davis 95616.
Search for other works by this author on:
M T Lucero
Department of Animal Physiology, University of California, Davis 95616.
P A Pappone
Department of Animal Physiology, University of California, Davis 95616.
Online ISSN: 1540-7748
Print ISSN: 0022-1295
J Gen Physiol (1989) 93 (3): 451–472.
Citation
M T Lucero, P A Pappone; Voltage-gated potassium channels in brown fat cells.. J Gen Physiol 1 March 1989; 93 (3): 451–472. doi: https://doi.org/10.1085/jgp.93.3.451
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