Nature Communications (Jan 2019)

A selective inhibitor of mitofusin 1-βIIPKC association improves heart failure outcome in rats

  • Julio C. B. Ferreira,
  • Juliane C. Campos,
  • Nir Qvit,
  • Xin Qi,
  • Luiz H. M. Bozi,
  • Luiz R. G. Bechara,
  • Vanessa M. Lima,
  • Bruno B. Queliconi,
  • Marie-Helene Disatnik,
  • Paulo M. M. Dourado,
  • Alicia J. Kowaltowski,
  • Daria Mochly-Rosen

DOI
https://doi.org/10.1038/s41467-018-08276-6
Journal volume & issue
Vol. 10, no. 1
pp. 1 – 14

Abstract

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Abstract We previously demonstrated that beta II protein kinase C (βIIPKC) activity is elevated in failing hearts and contributes to this pathology. Here we report that βIIPKC accumulates on the mitochondrial outer membrane and phosphorylates mitofusin 1 (Mfn1) at serine 86. Mfn1 phosphorylation results in partial loss of its GTPase activity and in a buildup of fragmented and dysfunctional mitochondria in heart failure. βIIPKC siRNA or a βIIPKC inhibitor mitigates mitochondrial fragmentation and cell death. We confirm that Mfn1-βIIPKC interaction alone is critical in inhibiting mitochondrial function and cardiac myocyte viability using SAMβA, a rationally-designed peptide that selectively antagonizes Mfn1-βIIPKC association. SAMβA treatment protects cultured neonatal and adult cardiac myocytes, but not Mfn1 knockout cells, from stress-induced death. Importantly, SAMβA treatment re-establishes mitochondrial morphology and function and improves cardiac contractility in rats with heart failure, suggesting that SAMβA may be a potential treatment for patients with heart failure.