完整心脏的松散贴片光解揭示心室动作电位期间的离子电流动力学。

Intact Heart Loose Patch Photolysis Reveals Ionic Current Kinetics During Ventricular Action Potentials.

作者信息

Ramos-Franco Josefina, Aguilar-Sanchez Yuriana, Escobar Ariel L

机构信息

From the Department of Molecular Biophysics and Physiology, Rush University Medical Center, Chicago, IL (J.R.-F.); and Quantitative Systems Biology Program, School of Natural Sciences (Y.A.-S.) and Biological Engineering and Small Scale Technologies Program, School of Engineering (A.L.E.), University of California, Merced, CA.

出版信息

Circ Res. 2016 Jan 22;118(2):203-15. doi: 10.1161/CIRCRESAHA.115.307399. Epub 2015 Nov 12.

DOI:10.1161/CIRCRESAHA.115.307399

PMID:26565013

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4851170/

Abstract

RATIONALE

Assessing the underlying ionic currents during a triggered action potential (AP) in intact perfused hearts offers the opportunity to link molecular mechanisms with pathophysiological problems in cardiovascular research. The developed loose patch photolysis technique can provide striking new insights into cardiac function at the whole heart level during health and disease.

OBJECTIVE

To measure transmembrane ionic currents during an AP to determine how and when surface Ca(2+) influx that triggers Ca(2+)-induced Ca(2+) release occurs and how Ca(2+)-activated conductances can contribute to the genesis of AP phase 2.

METHODS AND RESULTS

Loose patch photolysis allows the measurement of transmembrane ionic currents in intact hearts. During a triggered AP, a voltage-dependent Ca(2+) conductance was fractionally activated (dis-inhibited) by rapidly photo-degrading nifedipine, the Ca(2+) channel blocker. The ionic currents during a mouse ventricular AP showed a fast early component and a slower late component. Pharmacological studies established that the molecular basis underlying the early component was driven by an influx of Ca(2+) through the L-type channel, CaV 1.2. The late component was identified as an Na(+)-Ca(2+) exchanger current mediated by Ca(2+) released from the sarcoplasmic reticulum.

CONCLUSIONS

The novel loose patch photolysis technique allowed the dissection of transmembrane ionic currents in the intact heart. We were able to determine that during an AP, L-type Ca(2+) current contributes to phase 1, whereas Na(+)-Ca(2+) exchanger contributes to phase 2. In addition, loose patch photolysis revealed that the influx of Ca(2+) through L-type Ca(2+) channels terminates because of voltage-dependent deactivation and not by Ca(2+)-dependent inactivation, as commonly believed.

摘要

原理

在完整的灌注心脏中评估触发动作电位（AP）期间的潜在离子电流，为心血管研究中将分子机制与病理生理问题相联系提供了机会。已开发的松散膜片光解技术能够在健康和疾病状态下，在全心水平上为心脏功能提供引人注目的新见解。

目的

测量动作电位期间的跨膜离子电流，以确定触发钙诱导钙释放的表面钙内流的方式和时间，以及钙激活电导如何促成动作电位2期的产生。

方法与结果

松散膜片光解可用于测量完整心脏中的跨膜离子电流。在触发动作电位期间，通过快速光降解钙通道阻滞剂硝苯地平，电压依赖性钙电导被部分激活（去抑制）。小鼠心室动作电位期间的离子电流显示出一个快速的早期成分和一个较慢的晚期成分。药理学研究表明，早期成分的分子基础是由钙通过L型通道CaV 1.2内流驱动的。晚期成分被确定为由肌浆网释放的钙介导的钠钙交换电流。

结论

新型松散膜片光解技术能够剖析完整心脏中的跨膜离子电流。我们能够确定，在动作电位期间，L型钙电流促成1期，而钠钙交换促成2期。此外，松散膜片光解显示，通过L型钙通道的钙内流因电压依赖性失活而终止，而非如通常所认为的那样由钙依赖性失活终止。

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