PLoS ONE (Jan 2012)

Diesterified nitrone rescues nitroso-redox levels and increases myocyte contraction via increased SR Ca(2+) handling.

  • Christopher J Traynham,
  • Steve R Roof,
  • Honglan Wang,
  • Robert A Prosak,
  • Lifei Tang,
  • Serge Viatchenko-Karpinski,
  • Hsiang-Ting Ho,
  • Ira O Racoma,
  • Dominic J Catalano,
  • Xin Huang,
  • Yongbin Han,
  • Shang-U Kim,
  • Sandor Gyorke,
  • George E Billman,
  • Frederick A Villamena,
  • Mark T Ziolo

DOI
https://doi.org/10.1371/journal.pone.0052005
Journal volume & issue
Vol. 7, no. 12
p. e52005

Abstract

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Nitric oxide (NO) and superoxide (O(2) (-)) are important cardiac signaling molecules that regulate myocyte contraction. For appropriate regulation, NO and O(2) (.-) must exist at defined levels. Unfortunately, the NO and O(2) (.-) levels are altered in many cardiomyopathies (heart failure, ischemia, hypertrophy, etc.) leading to contractile dysfunction and adverse remodeling. Hence, rescuing the nitroso-redox levels is a potential therapeutic strategy. Nitrone spin traps have been shown to scavenge O(2) (.-) while releasing NO as a reaction byproduct; and we synthesized a novel, cell permeable nitrone, 2-2-3,4-dihydro-2H-pyrrole 1-oxide (EMEPO). We hypothesized that EMEPO would improve contractile function in myocytes with altered nitroso-redox levels. Ventricular myocytes were isolated from wildtype (C57Bl/6) and NOS1 knockout (NOS1(-/-)) mice, a known model of NO/O(2) (.-) imbalance, and incubated with EMEPO. EMEPO significantly reduced O(2) (.-) (lucigenin-enhanced chemiluminescence) and elevated NO (DAF-FM diacetate) levels in NOS1(-/-) myocytes. Furthermore, EMEPO increased NOS1(-/-) myocyte basal contraction (Ca(2+) transients, Fluo-4AM; shortening, video-edge detection), the force-frequency response and the contractile response to β-adrenergic stimulation. EMEPO had no effect in wildtype myocytes. EMEPO also increased ryanodine receptor activity (sarcoplasmic reticulum Ca(2+) leak/load relationship) and phospholamban Serine16 phosphorylation (Western blot). We also repeated our functional experiments in a canine post-myocardial infarction model and observed similar results to those seen in NOS1(-/-) myocytes. In conclusion, EMEPO improved contractile function in myocytes experiencing an imbalance of their nitroso-redox levels. The concurrent restoration of NO and O(2) (.-) levels may have therapeutic potential in the treatment of various cardiomyopathies.