An increase in intercellular crosstalk and electrotonic coupling between cardiomyocytes and nonmyocytes reshapes the electrical conduction in the metabolic heart characterized by short QT intervals in ECGs

Billur, Deniz; Olgar, Yusuf; Durak, Aysegul; Yozgat, Ayse Hande; Unay, Simge; Tuncay, Erkan; Turan, Belma

doi:10.1002/cbf.3893

Cell Biochemistry & Function

2023

DOI: 10.1002/cbf.3893

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An increase in intercellular crosstalk and electrotonic coupling between cardiomyocytes and nonmyocytes reshapes the electrical conduction in the metabolic heart characterized by short QT intervals in ECGs

Deniz Billur,

Yusuf Olgar,

Aysegul Durak

et al.

Abstract: Cardiac conduction abnormalities are disorders in metabolic syndrome (MetS), however, their mechanisms are unknown. Although ventricular arrhythmia reflects the changes in QT‐interval of electrocardiograms associated with the changes in cardiomyocyte action potential durations (APDs), recent studies emphasize role of intercellular crosstalk between cardiomyocytes and nonmyocytes via passive (electrotonic)‐conduction. Therefore, considering the possible increase in intercellular interactions of nonmyocytes with… Show more

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Cardiac macrophages in maintaining heart homeostasis and regulating ventricular remodeling of heart diseases

Kang,

Jia,

Feng

et al. 2024

Front. Immunol.

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Macrophages are most important immune cell population in the heart. Cardiac macrophages have broad-spectrum and heterogeneity, with two extreme polarization phenotypes: M1 pro-inflammatory macrophages (CCR2-ly6Chi) and M2 anti-inflammatory macrophages (CCR2-ly6Clo). Cardiac macrophages can reshape their polarization states or phenotypes to adapt to their surrounding microenvironment by altering metabolic reprogramming. The phenotypes and polarization states of cardiac macrophages can be defined by specific signature markers on the cell surface, including tumor necrosis factor α, interleukin (IL)-1β, inducible nitric oxide synthase (iNOS), C-C chemokine receptor type (CCR)2, IL-4 and arginase (Arg)1, among them, CCR2+/- is one of most important markers which is used to distinguish between resident and non-resident cardiac macrophage as well as macrophage polarization states. Dedicated balance between M1 and M2 cardiac macrophages are crucial for maintaining heart development and cardiac functional and electric homeostasis, and imbalance between macrophage phenotypes may result in heart ventricular remodeling and various heart diseases. The therapy aiming at specific target on macrophage phenotype is a promising strategy for treatment of heart diseases. In this article, we comprehensively review cardiac macrophage phenotype, metabolic reprogramming, and their role in maintaining heart health and mediating ventricular remodeling and potential therapeutic strategy in heart diseases.

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Cardiac macrophages in maintaining heart homeostasis and regulating ventricular remodeling of heart diseases

Kang,

Jia,

Feng

et al. 2024

Front. Immunol.

View full text Add to dashboard Cite

show abstract

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An increase in intercellular crosstalk and electrotonic coupling between cardiomyocytes and nonmyocytes reshapes the electrical conduction in the metabolic heart characterized by short QT intervals in ECGs

Cited by 1 publication

References 65 publications

Cardiac macrophages in maintaining heart homeostasis and regulating ventricular remodeling of heart diseases

Cardiac macrophages in maintaining heart homeostasis and regulating ventricular remodeling of heart diseases

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