The regulation of ATP-sensitive K+ channel activity in intact and permeabilized rat ventricular myocytes.

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The regulation of ATP-sensitive K+ channel activity in intact and permeabilized rat ventricular myocytes.

C G Nichols and W J Lederer

Department of Physiology, University of Maryland, Baltimore, MD 21201.

1. In isolated rat heart ventricular myocytes exposed to 2 mM-cyanidein the presence of 10 mM-2-deoxyglucose (complete metabolicblockade), there is a time-dependent increase in ATP-sensitivepotassium (KATP) channel activity. The increase in KATP channelactivity accompanies the decline of twitch amplitude. Channelactivation and decline of the twitch amplitude precede the developmentof a 'rigor' contracture. 2. We measured KATP channel activityin permeabilized cells using the open-cell attached (O-C-A)patch configuration (by establishing a cell-attached patch andthen permeabilizing the cell by exposure to saponin). The apparentATP dependence of KATP channel activity could be described bya sigmoid curve with ki, ATP (ATP concentration required forhalf-maximum inhibition of channel activity) = 122 microM andH (Hill coefficient) = 1.225. 3. In the O-C-A patch configuration,10 mM-creatine phosphate (CrP) decreased the apparent ki, ATPfrom 122 microM to about 10 microM, and the maximal activity(in zero ATP) was decreased to about 30% of the maximal activityin the absence of CrP. 4. In isolated inside-out (I-O) patches,ATP inhibited KATP channel activity at much lower [ATP] thanin the O-C-A patch configuration (ki, ATP = 25 microM, H = 2).CrP was without effect on I-O patches. 5. These results areconsistent with the hypothesis that the difference in the ATPdependence of KATP channel activity in the O-C-A and I-O patchconfigurations arises because of ATP consumption in the O-C-Apatch configuration. The results suggest that hydrolysis ofATP to ADP by endogenous ATPases leads to the development ofgradients of [ATP] and [ADP] between the bath and the 'inside'of the open cell. By re-phosphorylating ADP, CrP is able todissipate these gradients, revealing the 'true' ATP dependenceof channel activity, which is the same as that in the I-O patchconfiguration. 6. In order to estimate the contribution of KATPchannel activity to the rat cardiac action potential at different[ATP] we have made the following measurements. Using electrodesof resistance 2-8 M omega the density of KATP channels was 10.3+/- 0.1 channels per patch (n = 162).(ABSTRACT TRUNCATED AT400 WORDS)

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				A. Knopp, S. Thierfelder, R. Koopmann, C. Biskup, T. Bohle, and K. Benndorf Anoxia generates rapid and massive opening of KATP channels in ventricular cardiac myocytes Cardiovasc Res, March 1, 1999; 41(3): 629 - 640. [Abstract] [Full Text] [PDF]

				A. P. Babenko, G. Gonzalez, L. Aguilar-Bryan, and J. Bryan Reconstituted Human Cardiac KATP Channels : Functional Identity With the Native Channels From the Sarcolemma of Human Ventricular Cells Circ. Res., November 30, 1998; 83(11): 1132 - 1143. [Abstract] [Full Text] [PDF]

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