电压门控钙调制通道中钾离子锁定和钡离子结合位点的定位。对钾离子通透性存活的影响。

Localization of the K+ lock-In and the Ba2+ binding sites in a voltage-gated calcium-modulated channel. Implications for survival of K+ permeability.

作者信息

Vergara C, Alvarez O, Latorre R

机构信息

Departmento de Biología, Facultad de Ciencias, Universidad de Chile, Casilla 653, Santiago, Chile.

出版信息

J Gen Physiol. 1999 Sep;114(3):365-76. doi: 10.1085/jgp.114.3.365.

DOI:10.1085/jgp.114.3.365

PMID:10469727

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2229454/

Abstract

Using Ba2+ as a probe, we performed a detailed characterization of an external K+ binding site located in the pore of a large conductance Ca2+-activated K+ (BKCa) channel from skeletal muscle incorporated into planar lipid bilayers. Internal Ba2+ blocks BKCa channels and decreasing external K+ using a K+ chelator, (+)-18-Crown-6-tetracarboxylic acid, dramatically reduces the duration of the Ba2+-blocked events. Average Ba2+ dwell time changes from 10 s at 10 mM external K+ to 100 ms in the limit of very low [K+]. Using a model where external K+ binds to a site hindering the exit of Ba2+ toward the external side (Neyton, J., and C. Miller. 1988. J. Gen. Physiol. 92:549-568), we calculated a dissociation constant of 2.7 mircoM for K) at this lock-in site. We also found that BK(Ca) channels enter into a long-lasting nonconductive state when the external [K+] is reduced below 4 microM using the crown ether. Channel activity can be recovered by adding K+, Rb+, Cs+, or NH4+ to the external solution. These results suggest that the BK(Ca) channel stability in solutions of very low [K+] is due to K+ binding to a site having a very high affinity. Occupancy of this site by K+ avoids the channel conductance collapse and the exit of Ba2+ toward the external side. External tetraethylammonium also reduced the Ba2+ off rate and impeded the channel from entering into the long-lasting nonconductive state. This effect requires the presence of external K+. It is explained in terms of a model in which the conduction pore contains Ba2+, K+, and tetraethylammonium simultaneously, with the K+ binding site located internal to the tetraethylammonium site. Altogether, these results and the known potassium channel structure (Doyle, D.A., J.M. Cabral, R.A. Pfuetzner, A. Kuo, J.M. Gulbis, S.L. Cohen, B.T. Chait, and R. MacKinnon. 1998. Science. 280:69-77) imply that the lock-in site and the Ba2+ sites are the external and internal ion sites of the selectivity filter, respectively.

摘要

我们以Ba2+作为探针，对整合到平面脂质双分子层中的骨骼肌大电导Ca2+激活K+（BKCa）通道孔内的一个外部K+结合位点进行了详细表征。内部Ba2+会阻断BKCa通道，而使用K+螯合剂（+）-18-冠-6-四羧酸降低外部K+浓度，会显著缩短Ba2+阻断事件的持续时间。在外部K+浓度为10 mM时，Ba2+的平均停留时间为10秒，而在极低[K+]浓度的极限情况下，该时间变为100毫秒。使用一个外部K+与一个阻碍Ba2+向外排出的位点结合的模型（Neyton, J., and C. Miller. 1988. J. Gen. Physiol. 92:549 - 568），我们计算出该锁定位点处K+的解离常数为2.7微摩尔。我们还发现，当使用冠醚将外部[K+]浓度降低到4微摩尔以下时，BK（Ca）通道会进入一种持久的非导电状态。通过向外部溶液中添加K+、Rb+、Cs+或NH4+，通道活性可以恢复。这些结果表明BK（Ca）通道在极低[K+]溶液中的稳定性是由于K+与一个具有极高亲和力的位点结合。K+占据该位点可避免通道电导崩溃以及Ba2+向外排出。外部四乙铵也降低了Ba2+的解离速率，并阻止通道进入持久的非导电状态。这种效应需要外部K+的存在。这可以用一个传导孔同时包含Ba2+、K+和四乙铵的模型来解释，其中K+结合位点位于四乙铵位点的内部。总之，这些结果以及已知的钾通道结构（Doyle, D.A., J.M. Cabral, R.A. Pfuetzner, A. Kuo, J.M. Gulbis, S.L. Cohen, B.T. Chait, and R. MacKinnon. 1998. Science. 280:69 - 77）表明，锁定位点和Ba2+位点分别是选择性过滤器的外部和内部离子位点。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/57dd/2229454/a56e491e9d63/JGP7923.f4.jpg

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Localization of the K+ lock-In and the Ba2+ binding sites in a voltage-gated calcium-modulated channel. Implications for survival of K+ permeability.电压门控钙调制通道中钾离子锁定和钡离子结合位点的定位。对钾离子通透性存活的影响。

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电压门控钙调制通道中钾离子锁定和钡离子结合位点的定位。对钾离子通透性存活的影响。

Localization of the K+ lock-In and the Ba2+ binding sites in a voltage-gated calcium-modulated channel. Implications for survival of K+ permeability.

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