Metabolic and Immune Crosstalk in Cardiovascular Disease

Sarajo K. Mohanta; Coraline Heron; Alexandra Klaus-Bergmann; Hauke Horstmann; Ebba Brakenhielm; Chiara Giannarelli; Andreas J. R. Habenicht; Holger Gerhardt; Christian Weber

doi:10.1161/CIRCRESAHA.125.325496

Metabolic and Immune Crosstalk in Cardiovascular Disease

Sarajo K. Mohanta^*, Coraline Heron, Alexandra Klaus-Bergmann, Hauke Horstmann, Ebba Brakenhielm, Chiara Giannarelli, Andreas J. R. Habenicht, Holger Gerhardt, Christian Weber^*

^*Corresponding author for this work

Research output: Contribution to journal › (Systematic) Review article › peer-review

Abstract

Cardiovascular diseases including atherosclerosis and heart failure, arise from the intricate interplay of metabolic, immune, and neural dysregulation within vascular and cardiac tissues: This review focuses on integrating recent advances in metabolic and immune crosstalk of the cardiac vasculature that affects cardiometabolic health and disease progression. Coronary and lymphatic endothelial cells regulate cardiac metabolism, and their dysfunction is linked to cardiovascular diseases. Lymphatics maintain tissue homeostasis, including clearing metabolic waste, lipids, and immune cells, and their maladaptation in metabolic diseases worsens outcomes. Altered vascular endothelial metabolism in heart failure drives immune-mediated inflammation, fibrosis, and adverse cardiac remodeling. Concurrently, artery tertiary lymphoid organs formed in the adventitia of advanced atherosclerotic arteries, serve as pivotal neuroimmune hubs, coordinating local immunity through T and B cell activation and neurovascular signaling via artery-brain circuits. T cells within plaques and artery tertiary lymphoid organs undergo clonal expansion as a result of peripheral tolerance breakdown, with proinflammatory CD4+ and CD8+ subsets amplifying atherosclerosis, effects further shaped by systemic immune activation. Therapeutic strategies targeting endothelial cell metabolism, lymphatic dysfunction, neuroimmune crosstalk, and T cell plasticity hold promise for integrated cardiovascular disease management.

Original language	English
Pages (from-to)	1433-1453
Number of pages	21
Journal	Circulation Research
Volume	136
Issue number	11
DOIs	https://doi.org/10.1161/CIRCRESAHA.125.325496
Publication status	Published - 23 May 2025

Keywords

adventitia
atherosclerosis
cardiovascular diseases
endothelial cells
homeostasis
ENDOTHELIAL-CELL METABOLISM
MESENCHYMAL TRANSITION CONTRIBUTES
REVERSE CHOLESTEROL TRANSPORT
TERTIARY LYMPHOID STRUCTURES
SMOOTH-MUSCLE-CELLS
HEART-FAILURE
SINGLE-CELL
NITRIC-OXIDE
LYMPHATIC VASCULATURE
MOLECULAR-MECHANISMS

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10.1161/CIRCRESAHA.125.325496

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@article{373016251d6747ea9e24d95cd96def38,

title = "Metabolic and Immune Crosstalk in Cardiovascular Disease",

abstract = "Cardiovascular diseases including atherosclerosis and heart failure, arise from the intricate interplay of metabolic, immune, and neural dysregulation within vascular and cardiac tissues: This review focuses on integrating recent advances in metabolic and immune crosstalk of the cardiac vasculature that affects cardiometabolic health and disease progression. Coronary and lymphatic endothelial cells regulate cardiac metabolism, and their dysfunction is linked to cardiovascular diseases. Lymphatics maintain tissue homeostasis, including clearing metabolic waste, lipids, and immune cells, and their maladaptation in metabolic diseases worsens outcomes. Altered vascular endothelial metabolism in heart failure drives immune-mediated inflammation, fibrosis, and adverse cardiac remodeling. Concurrently, artery tertiary lymphoid organs formed in the adventitia of advanced atherosclerotic arteries, serve as pivotal neuroimmune hubs, coordinating local immunity through T and B cell activation and neurovascular signaling via artery-brain circuits. T cells within plaques and artery tertiary lymphoid organs undergo clonal expansion as a result of peripheral tolerance breakdown, with proinflammatory CD4+ and CD8+ subsets amplifying atherosclerosis, effects further shaped by systemic immune activation. Therapeutic strategies targeting endothelial cell metabolism, lymphatic dysfunction, neuroimmune crosstalk, and T cell plasticity hold promise for integrated cardiovascular disease management.",

keywords = "adventitia, atherosclerosis, cardiovascular diseases, endothelial cells, homeostasis, ENDOTHELIAL-CELL METABOLISM, MESENCHYMAL TRANSITION CONTRIBUTES, REVERSE CHOLESTEROL TRANSPORT, TERTIARY LYMPHOID STRUCTURES, SMOOTH-MUSCLE-CELLS, HEART-FAILURE, SINGLE-CELL, NITRIC-OXIDE, LYMPHATIC VASCULATURE, MOLECULAR-MECHANISMS",

author = "Mohanta, \{Sarajo K.\} and Coraline Heron and Alexandra Klaus-Bergmann and Hauke Horstmann and Ebba Brakenhielm and Chiara Giannarelli and Habenicht, \{Andreas J. R.\} and Holger Gerhardt and Christian Weber",

year = "2025",

month = may,

day = "23",

doi = "10.1161/CIRCRESAHA.125.325496",

language = "English",

volume = "136",

pages = "1433--1453",

journal = "Circulation Research",

issn = "0009-7330",

publisher = "Lippincott Williams \& Wilkins",

number = "11",

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T1 - Metabolic and Immune Crosstalk in Cardiovascular Disease

AU - Mohanta, Sarajo K.

AU - Heron, Coraline

AU - Klaus-Bergmann, Alexandra

AU - Horstmann, Hauke

AU - Brakenhielm, Ebba

AU - Giannarelli, Chiara

AU - Habenicht, Andreas J. R.

AU - Gerhardt, Holger

AU - Weber, Christian

PY - 2025/5/23

Y1 - 2025/5/23

N2 - Cardiovascular diseases including atherosclerosis and heart failure, arise from the intricate interplay of metabolic, immune, and neural dysregulation within vascular and cardiac tissues: This review focuses on integrating recent advances in metabolic and immune crosstalk of the cardiac vasculature that affects cardiometabolic health and disease progression. Coronary and lymphatic endothelial cells regulate cardiac metabolism, and their dysfunction is linked to cardiovascular diseases. Lymphatics maintain tissue homeostasis, including clearing metabolic waste, lipids, and immune cells, and their maladaptation in metabolic diseases worsens outcomes. Altered vascular endothelial metabolism in heart failure drives immune-mediated inflammation, fibrosis, and adverse cardiac remodeling. Concurrently, artery tertiary lymphoid organs formed in the adventitia of advanced atherosclerotic arteries, serve as pivotal neuroimmune hubs, coordinating local immunity through T and B cell activation and neurovascular signaling via artery-brain circuits. T cells within plaques and artery tertiary lymphoid organs undergo clonal expansion as a result of peripheral tolerance breakdown, with proinflammatory CD4+ and CD8+ subsets amplifying atherosclerosis, effects further shaped by systemic immune activation. Therapeutic strategies targeting endothelial cell metabolism, lymphatic dysfunction, neuroimmune crosstalk, and T cell plasticity hold promise for integrated cardiovascular disease management.

AB - Cardiovascular diseases including atherosclerosis and heart failure, arise from the intricate interplay of metabolic, immune, and neural dysregulation within vascular and cardiac tissues: This review focuses on integrating recent advances in metabolic and immune crosstalk of the cardiac vasculature that affects cardiometabolic health and disease progression. Coronary and lymphatic endothelial cells regulate cardiac metabolism, and their dysfunction is linked to cardiovascular diseases. Lymphatics maintain tissue homeostasis, including clearing metabolic waste, lipids, and immune cells, and their maladaptation in metabolic diseases worsens outcomes. Altered vascular endothelial metabolism in heart failure drives immune-mediated inflammation, fibrosis, and adverse cardiac remodeling. Concurrently, artery tertiary lymphoid organs formed in the adventitia of advanced atherosclerotic arteries, serve as pivotal neuroimmune hubs, coordinating local immunity through T and B cell activation and neurovascular signaling via artery-brain circuits. T cells within plaques and artery tertiary lymphoid organs undergo clonal expansion as a result of peripheral tolerance breakdown, with proinflammatory CD4+ and CD8+ subsets amplifying atherosclerosis, effects further shaped by systemic immune activation. Therapeutic strategies targeting endothelial cell metabolism, lymphatic dysfunction, neuroimmune crosstalk, and T cell plasticity hold promise for integrated cardiovascular disease management.

KW - adventitia

KW - atherosclerosis

KW - cardiovascular diseases

KW - endothelial cells

KW - homeostasis

KW - ENDOTHELIAL-CELL METABOLISM

KW - MESENCHYMAL TRANSITION CONTRIBUTES

KW - REVERSE CHOLESTEROL TRANSPORT

KW - TERTIARY LYMPHOID STRUCTURES

KW - SMOOTH-MUSCLE-CELLS

KW - HEART-FAILURE

KW - SINGLE-CELL

KW - NITRIC-OXIDE

KW - LYMPHATIC VASCULATURE

KW - MOLECULAR-MECHANISMS

U2 - 10.1161/CIRCRESAHA.125.325496

DO - 10.1161/CIRCRESAHA.125.325496

M3 - (Systematic) Review article

SN - 0009-7330

VL - 136

SP - 1433

EP - 1453

JO - Circulation Research

JF - Circulation Research

IS - 11

ER -

Metabolic and Immune Crosstalk in Cardiovascular Disease

Abstract

Keywords

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