New understanding of electrical activity brought by surface potential of cardiomyocytes

New understanding of electrical activity brought by surface potential of cardiomyocytes

Abstract Aiming at the problem encountered in the previous research: during the electrical activity of cardiomyocytes, the influent ions do not seem to be directly derived from the extracellular fluid. We chose to cut in from the colloidal properties of the cells, follow the basic principles of phys...

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Main Authors: Ying Zhou, Yanfei Hao, Pei Sun, Guang Li, Mengqi Dong, Xuehui Fan, Xiuyun He
Format: Article
Language:English
Published: Nature Publishing Group 2021-03-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-021-86138-w
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spelling doaj-1d942985b3094f30ae3087a88e967b522021-03-28T11:30:30ZengNature Publishing GroupScientific Reports2045-23222021-03-0111111210.1038/s41598-021-86138-wNew understanding of electrical activity brought by surface potential of cardiomyocytesYing Zhou0Yanfei Hao1Pei Sun2Guang Li3Mengqi Dong4Xuehui Fan5Xiuyun He6The Eighth Medical Center, Chinese People′s Liberation Army General HospitalThe Eighth Medical Center, Chinese People′s Liberation Army General HospitalThe Eighth Medical Center, Chinese People′s Liberation Army General HospitalInstitute of Cardiovascular Research, Southwest Medical UniversityThe Eighth Medical Center, Chinese People′s Liberation Army General HospitalInstitute of Cardiovascular Research, Southwest Medical UniversityThe Eighth Medical Center, Chinese People′s Liberation Army General HospitalAbstract Aiming at the problem encountered in the previous research: during the electrical activity of cardiomyocytes, the influent ions do not seem to be directly derived from the extracellular fluid. We chose to cut in from the colloidal properties of the cells, follow the basic principles of physical chemistry, and establish hypotheses along the derivation of the structural characteristics of cardiomyocytes. Through the surface ion adsorption experiment and patch clamp experiment of living cells, under the condition of sequentially reducing the concentration of Na+ in the extracellular fluid, we observed the exchange and diffusion of adsorbed ions on the cell surface; the changes of inflow I Na, I Ca-L and action potential; and correlation between results. The results showed that the hypothesis is true. The observed parameter changes were consistent with the fact that during depolarization of cardiomyocytes, the ions of influx were derived from the inference of adsorbed ions on the cell surface; at the same time, it also provided an objective and realistic explanation for the generation of electrocardiogram.https://doi.org/10.1038/s41598-021-86138-w
collection DOAJ
language English
format Article
sources DOAJ
author Ying Zhou
Yanfei Hao
Pei Sun
Guang Li
Mengqi Dong
Xuehui Fan
Xiuyun He
spellingShingle Ying Zhou
Yanfei Hao
Pei Sun
Guang Li
Mengqi Dong
Xuehui Fan
Xiuyun He
New understanding of electrical activity brought by surface potential of cardiomyocytes
Scientific Reports
author_facet Ying Zhou
Yanfei Hao
Pei Sun
Guang Li
Mengqi Dong
Xuehui Fan
Xiuyun He
author_sort Ying Zhou
title New understanding of electrical activity brought by surface potential of cardiomyocytes
title_short New understanding of electrical activity brought by surface potential of cardiomyocytes
title_full New understanding of electrical activity brought by surface potential of cardiomyocytes
title_fullStr New understanding of electrical activity brought by surface potential of cardiomyocytes
title_full_unstemmed New understanding of electrical activity brought by surface potential of cardiomyocytes
title_sort new understanding of electrical activity brought by surface potential of cardiomyocytes
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2021-03-01
description Abstract Aiming at the problem encountered in the previous research: during the electrical activity of cardiomyocytes, the influent ions do not seem to be directly derived from the extracellular fluid. We chose to cut in from the colloidal properties of the cells, follow the basic principles of physical chemistry, and establish hypotheses along the derivation of the structural characteristics of cardiomyocytes. Through the surface ion adsorption experiment and patch clamp experiment of living cells, under the condition of sequentially reducing the concentration of Na+ in the extracellular fluid, we observed the exchange and diffusion of adsorbed ions on the cell surface; the changes of inflow I Na, I Ca-L and action potential; and correlation between results. The results showed that the hypothesis is true. The observed parameter changes were consistent with the fact that during depolarization of cardiomyocytes, the ions of influx were derived from the inference of adsorbed ions on the cell surface; at the same time, it also provided an objective and realistic explanation for the generation of electrocardiogram.
url https://doi.org/10.1038/s41598-021-86138-w
work_keys_str_mv AT yingzhou newunderstandingofelectricalactivitybroughtbysurfacepotentialofcardiomyocytes
AT yanfeihao newunderstandingofelectricalactivitybroughtbysurfacepotentialofcardiomyocytes
AT peisun newunderstandingofelectricalactivitybroughtbysurfacepotentialofcardiomyocytes
AT guangli newunderstandingofelectricalactivitybroughtbysurfacepotentialofcardiomyocytes
AT mengqidong newunderstandingofelectricalactivitybroughtbysurfacepotentialofcardiomyocytes
AT xuehuifan newunderstandingofelectricalactivitybroughtbysurfacepotentialofcardiomyocytes
AT xiuyunhe newunderstandingofelectricalactivitybroughtbysurfacepotentialofcardiomyocytes
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