Flux regulation of cardiac ryanodine receptor channels

被引：26

作者：

Liu, Yiwei ^{[1
]}

Porta, Maura ^{[2
]}

Qin, Jia ^{[1
]}

Ramos, Jorge ^{[1
]}

Nani, Alma ^{[1
]}

Shannon, Thomas R. ^{[1
]}

Fill, Michael ^{[1
]}

机构：

[1] Rush Univ, Med Ctr, Dept Mol Physiol & Biophys, Chicago, IL 60612 USA

[2] Midwestern Univ, Dept Physiol, Downers Grove, IL 60515 USA

来源：

JOURNAL OF GENERAL PHYSIOLOGY | 2010年 / 135卷 / 01期

基金：

美国国家卫生研究院;

关键词：

CALCIUM-RELEASE CHANNELS; PHYSIOLOGICAL IONIC CONDITIONS; RETICULUM LUMENAL CA2+; SARCOPLASMIC-RETICULUM; SKELETAL-MUSCLE; LUMINAL CA2+; RAT-HEART; ACTIVATION; CALSEQUESTRIN; INACTIVATION;

D O I：

10.1085/jgp.200910273

中图分类号：

Q4 [生理学];

学科分类号：

071003 ;

摘要：

The cardiac type 2 ryanodine receptor (RYR2) is activated by Ca2+-induced Ca2+ release (CICR). The inherent positive feedback of CICR is well controlled in cells, but the nature of this control is debated. Here, we explore how the Ca2+ flux (lumen-to-cytosol) carried by an open RYR2 channel influences its own cytosolic Ca2+ regulatory sites as well as those on a neighboring channel. Both flux-dependent activation and inhibition of single channels were detected when there were super-physiological Ca2+ fluxes (>3 pA). Single-channel results indicate a pore inhibition site distance of 1.2 +/- 0.16 nm and that the activation site on an open channel is shielded/protected from its own flux. Our results indicate that the Ca2+ flux mediated by an open RYR2 channel in cells (similar to 0.5 pA) is too small to substantially regulate (activate or inhibit) the channel carrying it, even though it is sufficient to activate a neighboring RYR2 channel.

引用

页码：15 / 27

页数：13

共 39 条

[1] Calsequestrin and the calcium release channel of skeletal and cardiac muscle
Beard, NA
Laver, DR
Dulhunty, AF
[J]. PROGRESS IN BIOPHYSICS & MOLECULAR BIOLOGY, 2004, 85 (01) : 33 - 69
[2] Bers D., 2001, Excitation-Contraction Coupling and Cardiac Contractile Force, VVolume 237
[3] Differential activation by Ca2+, ATP and caffeine of cardiac and skeletal muscle ryanodine receptors after block by Mg2+
Copello, JA
Barg, S
Sonnleitner, A
Porta, M
Diaz-Sylvester, P
Fill, M
Schindler, H
Fleischer, S
[J]. JOURNAL OF MEMBRANE BIOLOGY, 2002, 187 (01) : 51 - 64
[4] TIME AND CALCIUM DEPENDENCE OF ACTIVATION AND INACTIVATION OF CALCIUM-INDUCED RELEASE OF CALCIUM FROM THE SARCOPLASMIC-RETICULUM OF A SKINNED CANINE CARDIAC PURKINJE-CELL
FABIATO, A
[J]. JOURNAL OF GENERAL PHYSIOLOGY, 1985, 85 (02) : 247 - 289
[5] Ryanodine receptor calcium release channels
Fill, M
Copello, JA
[J]. PHYSIOLOGICAL REVIEWS, 2002, 82 (04) : 893 - 922
[6] Shape, size, and distribution of Ca2+ release units and couplons in skeletal and cardiac muscles
Franzini-Armstrong, C
Protasi, F
Ramesh, V
[J]. BIOPHYSICAL JOURNAL, 1999, 77 (03) : 1528 - 1539
[7] Intracellular calcium release channels mediate their own countercurrent: The ryanodine receptor case study
Gillespie, Dirk
Fill, Michael
[J]. BIOPHYSICAL JOURNAL, 2008, 95 (08) : 3706 - 3714
[8] Györke I, 2004, BIOPHYS J, V86, P2121, DOI 10.1016/S0006-3495(04)74271-X
[9] RYANODINE RECEPTOR ADAPTATION - CONTROL MECHANISM OF CA2+-INDUCED CA2+ RELEASE IN HEART
GYORKE, S
FILL, M
[J]. SCIENCE, 1993, 260 (5109) : 807 - 809
[10] Unitary Ca2+ current through mammalian cardiac and amphibian skeletal muscle ryanodine receptor channels under near-physiological ionic conditions
Kettlun, C
González, A
Ríos, E
Fill, M
[J]. JOURNAL OF GENERAL PHYSIOLOGY, 2003, 122 (04) : 407 - 417

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