Testing for violations of microscopic reversibility in ATP-sensitive potassium channel gating

Authors
Choi, Kee-HyunTantama, MathewLicht, Stuart
Issue Date
2008-08-21
Publisher
AMER CHEMICAL SOC
Citation
JOURNAL OF PHYSICAL CHEMISTRY B, v.112, no.33, pp.10314 - 10321
Abstract
In pancreatic P cells, insulin secretion is tightly controlled by the cells' metabolic state via the ATP-sensitive potassium (KATP) channel. ATP is a key mediator in this signaling process, where its role as an inhibitor of KATP channels has been extensively studied. Since the channel contains an ATPase as an accessory subunit, the possibility that ATP hydrolysis mediates KATI' channel opening has also been proposed. However, a rigorous test of coupling between ATP hydrolysis and channel gating has not previously been performed. In the present work, we examine whether KATP channel gating obeys detailed balance in order to determine whether ATP hydrolysis is strongly coupled to the gating of the KA,w channel. Single-channel records were obtained from inside-out patches of transiently transfected HEK-293 cells. Channel activity in membrane patches with exactly one channel shows no violations of microscopic reversibility. Although KATP channel gating shows long closed times on the time scale where ATP hydrolysis takes place, the time symmetry of channel gating indicates that it is not tightly coupled to ATP hydrolysis. This lack of coupling suggests that channel gating operates close to equilibrium; although detailed balance is not expected to hold for ATP hydrolysis, it still does so in channel gating. On the basis of these results, the function of the ATPase active site in channel gating may be to sense nucleotides by differential binding of ATF and ADP, rather than to drive a thermodynamically unfavorable conformational change.
Keywords
DWELL-TIME DISTRIBUTIONS; K+ CHANNELS; SULFONYLUREA RECEPTOR; INSULIN-SECRETION; DETAILED BALANCE; MARKOV-MODELS; NMDA-CHANNEL; OPEN STATE; CONDUCTANCE; INHIBITION; DWELL-TIME DISTRIBUTIONS; K+ CHANNELS; SULFONYLUREA RECEPTOR; INSULIN-SECRETION; DETAILED BALANCE; MARKOV-MODELS; NMDA-CHANNEL; OPEN STATE; CONDUCTANCE; INHIBITION
ISSN
1520-6106
URI
https://pubs.kist.re.kr/handle/201004/133223
DOI
10.1021/jp712088v
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KIST Article > 2008
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