The immune-cardiovascular metabolic circuitry in myocardial ischemia-reperfusion injury: from metabolic signal release to spatiotemporal reprogramming - Takeaways - MDSpire

The immune-cardiovascular metabolic circuitry in myocardial ischemia-reperfusion injury: from metabolic signal release to spatiotemporal reprogramming

  • By

  • Conghao Tan

  • Junjie Zhou

  • Jiawen Li

  • Xinyi Zhang

  • Wei Yuan

  • May 26, 2026

  • 0 min

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  • 1

    Myocardial ischemia-reperfusion injury (MIRI) significantly contributes to infarct expansion and poor outcomes post-reperfusion therapy.

  • 2

    MIRI is characterized by an imbalance in immune-cardiac metabolic communication rather than just oxidative stress and inflammation.

  • 3

    Injured cardiac cells actively release metabolites and danger signals that influence immune cell responses and tissue remodeling.

  • 4

    Immune cells dynamically reprogram their metabolism in response to signals from injured cardiac cells, affecting inflammation and repair.

  • 5

    MIRI can be viewed as a disordered immune-metabolic coupling, highlighting the need for precise therapeutic strategies.

Original Source(s)

The immune-cardiovascular metabolic circuitry in myocardial ischemia-reperfusion injury: from metabolic signal release to spatiotemporal reprogramming

  • by Conghao Tan, Junjie Zhou, Jiawen Li, Xinyi Zhang, Wei Yuan

  • May 26, 2026

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