Dysregulated Redox Signaling and Its Impact on Inflammatory Pathways, Mitochondrial Dysfunction, Autophagy and Cardiovascular Diseases
Mehnaz Pervin, Judy B. de Haan

TL;DR
This paper reviews how imbalanced redox signaling, mitochondrial issues, and autophagy contribute to inflammation and heart disease.
Contribution
It provides a comprehensive review of the interconnected roles of redox signaling, mitochondrial dysfunction, and autophagy in cardiovascular inflammation.
Findings
Dysregulated redox signaling increases reactive oxygen species, leading to inflammation and immune dysfunction in cardiovascular diseases.
Mitochondrial dysfunction and impaired autophagy contribute to oxidative stress and immune cell activation.
Enhanced mitophagy reduces ROS and helps maintain immune balance in cardiovascular tissues.
Abstract
Dysregulated redox signaling, mitochondrial dysfunction and impaired autophagy form an interconnected network that drives inflammatory and immune responses in cardiovascular disease. Among these, disturbances in redox balance, largely mediated by reactive oxygen species (ROS), serve as key drivers linking inflammatory signaling to adverse cardiovascular outcomes. Mitochondria are essential for energy production and cellular homeostasis, but their dysfunction leads to the accumulation of excessive ROS, which triggers inflammation. This pro-oxidative milieu disrupts immune regulation by activating inflammasomes, promoting cytokine secretion, triggering immune cell infiltration and ultimately contributing to cardiovascular injury. Conversely, intracellular degradation processes such as mitophagy alleviate these effects by selectively eliminating dysfunctional mitochondria, thereby…
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Taxonomy
TopicsAutophagy in Disease and Therapy · Hydrogen's biological and therapeutic effects · Inflammasome and immune disorders
