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Glial cells in the heart: Implications for their roles in health and disease

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Glial cells in the heart: Implications for their roles in health and disease. / Mastitskaya, Svetlana; Dugarova, Rimma; Theparambil, Shefeeq M.
In: The Journal of Physiology, 05.09.2025.

Research output: Contribution to Journal/MagazineReview articlepeer-review

Harvard

Mastitskaya, S, Dugarova, R & Theparambil, SM 2025, 'Glial cells in the heart: Implications for their roles in health and disease', The Journal of Physiology. https://doi.org/10.1113/jp286598

APA

Mastitskaya, S., Dugarova, R., & Theparambil, S. M. (2025). Glial cells in the heart: Implications for their roles in health and disease. The Journal of Physiology. Advance online publication. https://doi.org/10.1113/jp286598

Vancouver

Mastitskaya S, Dugarova R, Theparambil SM. Glial cells in the heart: Implications for their roles in health and disease. The Journal of Physiology. 2025 Sept 5. Epub 2025 Sept 5. doi: 10.1113/jp286598

Author

Mastitskaya, Svetlana ; Dugarova, Rimma ; Theparambil, Shefeeq M. / Glial cells in the heart : Implications for their roles in health and disease. In: The Journal of Physiology. 2025.

Bibtex

@article{302bee24f4c545b198d937a04a5d22e0,
title = "Glial cells in the heart: Implications for their roles in health and disease",
abstract = "Glial cells are essential regulators of brain homeostasis by orchestrating neuronal function, metabolism and immune responses. However, much less is known about peripheral glial cells, particularly those in the heart. This review explores the development, types and functions of cardiac glial cells, including Schwann cells, satellite glial cells and recently identified cardiac nexus glia, with some reference to their central nervous system counterparts. The heart's autonomic nervous system consists of sympathetic and parasympathetic nerve fibres, primarily located in the epicardial fat pads within the transverse and oblique sinuses and around the roots of the great vessels. Schwann cells support cardiac repair by myelinating neurons and modulating inflammation, while satellite glial cells regulate the neuronal microenvironment, influencing heart rate and rhythm. Cardiac nexus glial cells interact with both sympathetic and parasympathetic pathways to regulate heart function. Understanding the roles of cardiac glial cells could provide new insights into neuro‐cardiac interactions and reveal potential therapeutic targets for cardiac disorders. ",
keywords = "satellite glial cells, Schwann cells, cardiac glial cells, cardiac nexus glia",
author = "Svetlana Mastitskaya and Rimma Dugarova and Theparambil, {Shefeeq M.}",
year = "2025",
month = sep,
day = "5",
doi = "10.1113/jp286598",
language = "English",
journal = "The Journal of Physiology",
issn = "0022-3751",
publisher = "Wiley-Blackwell",

}

RIS

TY - JOUR

T1 - Glial cells in the heart

T2 - Implications for their roles in health and disease

AU - Mastitskaya, Svetlana

AU - Dugarova, Rimma

AU - Theparambil, Shefeeq M.

PY - 2025/9/5

Y1 - 2025/9/5

N2 - Glial cells are essential regulators of brain homeostasis by orchestrating neuronal function, metabolism and immune responses. However, much less is known about peripheral glial cells, particularly those in the heart. This review explores the development, types and functions of cardiac glial cells, including Schwann cells, satellite glial cells and recently identified cardiac nexus glia, with some reference to their central nervous system counterparts. The heart's autonomic nervous system consists of sympathetic and parasympathetic nerve fibres, primarily located in the epicardial fat pads within the transverse and oblique sinuses and around the roots of the great vessels. Schwann cells support cardiac repair by myelinating neurons and modulating inflammation, while satellite glial cells regulate the neuronal microenvironment, influencing heart rate and rhythm. Cardiac nexus glial cells interact with both sympathetic and parasympathetic pathways to regulate heart function. Understanding the roles of cardiac glial cells could provide new insights into neuro‐cardiac interactions and reveal potential therapeutic targets for cardiac disorders.

AB - Glial cells are essential regulators of brain homeostasis by orchestrating neuronal function, metabolism and immune responses. However, much less is known about peripheral glial cells, particularly those in the heart. This review explores the development, types and functions of cardiac glial cells, including Schwann cells, satellite glial cells and recently identified cardiac nexus glia, with some reference to their central nervous system counterparts. The heart's autonomic nervous system consists of sympathetic and parasympathetic nerve fibres, primarily located in the epicardial fat pads within the transverse and oblique sinuses and around the roots of the great vessels. Schwann cells support cardiac repair by myelinating neurons and modulating inflammation, while satellite glial cells regulate the neuronal microenvironment, influencing heart rate and rhythm. Cardiac nexus glial cells interact with both sympathetic and parasympathetic pathways to regulate heart function. Understanding the roles of cardiac glial cells could provide new insights into neuro‐cardiac interactions and reveal potential therapeutic targets for cardiac disorders.

KW - satellite glial cells

KW - Schwann cells

KW - cardiac glial cells

KW - cardiac nexus glia

U2 - 10.1113/jp286598

DO - 10.1113/jp286598

M3 - Review article

JO - The Journal of Physiology

JF - The Journal of Physiology

SN - 0022-3751

ER -