心肌线粒体膜电位的体内定量测绘

Quantitative in vivo mapping of myocardial mitochondrial membrane potential.

作者信息

Alpert Nathaniel M, Guehl Nicolas, Ptaszek Leon, Pelletier-Galarneau Matthieu, Ruskin Jeremy, Mansour Moussa C, Wooten Dustin, Ma Chao, Takahashi Kazue, Zhou Yun, Shoup Timothy M, Normandin Marc D, El Fakhri Georges

机构信息

Gordon Center for Medical Imaging, Massachusetts General Hospital, Harvard Medical School, Boston, Massachusetts, United States of America.

Cardiac Arrhythmia Service, Massachusetts General Hospital, Harvard Medical School, Boston, Massachusetts, United States of America.

出版信息

PLoS One. 2018 Jan 16;13(1):e0190968. doi: 10.1371/journal.pone.0190968. eCollection 2018.

DOI:10.1371/journal.pone.0190968

PMID:29338024

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5770041/

Abstract

BACKGROUND

Mitochondrial membrane potential (ΔΨm) arises from normal function of the electron transport chain. Maintenance of ΔΨm within a narrow range is essential for mitochondrial function. Methods for in vivo measurement of ΔΨm do not exist. We use 18F-labeled tetraphenylphosphonium (18F-TPP+) to measure and map the total membrane potential, ΔΨT, as the sum of ΔΨm and cellular (ΔΨc) electrical potentials.

METHODS

Eight pigs, five controls and three with a scar-like injury, were studied. Pigs were studied with a dynamic PET scanning protocol to measure 18F-TPP+ volume of distribution, VT. Fractional extracellular space (fECS) was measured in 3 pigs. We derived equations expressing ΔΨT as a function of VT and the volume-fractions of mitochondria and fECS. Seventeen segment polar maps and parametric images of ΔΨT were calculated in millivolts (mV).

RESULTS

In controls, mean segmental ΔΨT = -129.4±1.4 mV (SEM). In pigs with segmental tissue injury, ΔΨT was clearly separated from control segments but variable, in the range -100 to 0 mV. The quality of ΔΨT maps was excellent, with low noise and good resolution. Measurements of ΔΨT in the left ventricle of pigs agree with previous in in-vitro measurements.

CONCLUSIONS

We have analyzed the factors affecting the uptake of voltage sensing tracers and developed a minimally invasive method for mapping ΔΨT in left ventricular myocardium of pigs. ΔΨT is computed in absolute units, allowing for visual and statistical comparison of individual values with normative data. These studies demonstrate the first in vivo application of quantitative mapping of total tissue membrane potential, ΔΨT.

摘要

背景

线粒体膜电位（ΔΨm）源于电子传递链的正常功能。将ΔΨm维持在狭窄范围内对线粒体功能至关重要。目前尚无体内测量ΔΨm的方法。我们使用18F标记的四苯基鏻（18F-TPP+）来测量和绘制总膜电位ΔΨT，它是ΔΨm与细胞（ΔΨc）电位之和。

方法

对8头猪进行研究，其中5头为对照，3头有瘢痕样损伤。采用动态PET扫描方案对猪进行研究，以测量18F-TPP+的分布容积VT。在3头猪中测量了细胞外空间分数（fECS）。我们推导了将ΔΨT表示为VT以及线粒体和fECS体积分数函数的方程。计算了17个节段的ΔΨT极坐标图和参数图像，单位为毫伏（mV）。

结果

在对照组中，平均节段性ΔΨT = -129.4±1.4 mV（标准误）。在有节段性组织损伤的猪中，ΔΨT与对照节段明显分离，但变化较大，范围在-100至0 mV之间。ΔΨT图的质量极佳，噪声低且分辨率高。猪左心室的ΔΨT测量结果与先前的体外测量结果一致。

结论

我们分析了影响电压感应示踪剂摄取的因素，并开发了一种微创方法来绘制猪左心室心肌的ΔΨT图。ΔΨT以绝对单位计算，允许将个体值与标准数据进行视觉和统计比较。这些研究展示了总组织膜电位ΔΨT定量映射的首次体内应用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/84a5/5770041/e9ef0796f8f2/pone.0190968.g001.jpg

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心肌线粒体膜电位的体内定量测绘

Quantitative in vivo mapping of myocardial mitochondrial membrane potential.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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