Journal of the American Heart Association: Cardiovascular and Cerebrovascular Disease (Feb 2023)

Cardiac Myocyte‐Specific Overexpression of FASTKD1 Prevents Ventricular Rupture After Myocardial Infarction

  • Kurt D. Marshall,
  • Paula J. Klutho,
  • Lihui Song,
  • Rajika Roy,
  • Maike Krenz,
  • Christopher P. Baines

DOI
https://doi.org/10.1161/JAHA.122.025867
Journal volume & issue
Vol. 12, no. 4

Abstract

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Background The mitochondrial mRNA‐binding protein FASTKD1 (Fas‐activated serine/threonine [FAST] kinase domain–containing protein 1) protects myocytes from oxidative stress in vitro. However, the role of FASTKD1 in the myocardium in vivo is unknown. Therefore, we developed cardiac‐specific FASTKD1 transgenic mice to test the effects of this protein on experimental myocardial infarction (MI). Methods and Results Transgenic mouse lines with cardiac myocyte‐specific overexpression of FASTKD1 to varying degrees were generated. These mice displayed normal cardiac morphological features and function at the gross and microscopic levels. Isolated cardiac mitochondria from all transgenic mouse lines showed normal mitochondrial function, ATP levels, and permeability transition pore activity. Male nontransgenic and transgenic mice from the highest‐expressing line were subjected to 8 weeks of permanent coronary ligation. Of nontransgenic mice, 40% underwent left ventricular free wall rupture within 7 days of MI compared with 0% of FASTKD1‐overexpressing mice. At 3 days after MI, FASTKD1 overexpression did not alter infarct size. However, increased FASTKD1 resulted in decreased neutrophil and increased macrophage infiltration, elevated levels of the extracellular matrix component periostin, and enhanced antioxidant capacity compared with control mice. In contrast, markers of mitochondrial fusion/fission and apoptosis remained unaltered. Instead, transcriptomic analyses indicated activation of the integrated stress response in the FASTKD1 transgenic hearts. Conclusions Cardiac‐specific overexpression of FASTKD1 results in viable mice displaying normal cardiac morphological features and function. However, these mice are resistant to MI‐induced cardiac rupture and display altered inflammatory, extracellular matrix, and antioxidant responses following MI. Moreover, these protective effects were associated with enhanced activation of the integrated stress response.

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