Improved mitochondrial function in the hearts of sarcolipin-deficient dystrophin and utrophin double-knockout mice
Satvik Mareedu, Nadezhda Fefelova, Cristi L. Galindo, Goutham Prakash, Risa Mukai, Junichi Sadoshima, Lai-Hua Xie, Gopal J. Babu
Satvik Mareedu, Nadezhda Fefelova, Cristi L. Galindo, Goutham Prakash, Risa Mukai, Junichi Sadoshima, Lai-Hua Xie, Gopal J. Babu
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Research Article Metabolism

Improved mitochondrial function in the hearts of sarcolipin-deficient dystrophin and utrophin double-knockout mice

Abstract

Duchenne muscular dystrophy (DMD) is a progressive muscle-wasting disease associated with cardiomyopathy. DMD cardiomyopathy is characterized by abnormal intracellular Ca2+ homeostasis and mitochondrial dysfunction. We used dystrophin and utrophin double-knockout (mdx:utrn–/–) mice in a sarcolipin (SLN) heterozygous-knockout (sln+/–) background to examine the effect of SLN reduction on mitochondrial function in the dystrophic myocardium. Germline reduction of SLN expression in mdx:utrn–/– mice improved cardiac sarco/endoplasmic reticulum (SR) Ca2+ cycling, reduced cardiac fibrosis, and improved cardiac function. At the cellular level, reducing SLN expression prevented mitochondrial Ca2+ overload, reduced mitochondrial membrane potential loss, and improved mitochondrial function. Transmission electron microscopy of myocardial tissues and proteomic analysis of mitochondria-associated membranes showed that reducing SLN expression improved mitochondrial structure and SR-mitochondria interactions in dystrophic cardiomyocytes. These findings indicate that SLN upregulation plays a substantial role in the pathogenesis of cardiomyopathy and that reducing SLN expression has clinical implications in the treatment of DMD cardiomyopathy.

Authors

Satvik Mareedu, Nadezhda Fefelova, Cristi L. Galindo, Goutham Prakash, Risa Mukai, Junichi Sadoshima, Lai-Hua Xie, Gopal J. Babu

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Figure 2

Ca2+m handling is improved in the mdx:utrn–/–:sln+/– myocardium.

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Ca2+m handling is improved in the mdx:utrn–/–:sln+/– myocardium. (A) Rep...
(A) Representative confocal images of cardiomyocytes from WT, mdx:utrn–/–, and mdx:utrn–/–:sln+/– mice stained with reduced Rhod-2, AM (left panel), and summarized quantitation data showing the MFI (right panel). We used 10–25 myocytes per mouse heart. n = 4 mice per genotype. For all images, the original magnification is 60×. (B) Representative traces (left panel) and quantitation of F/F0 (right panel) showing Ca2+m transients in cardiomyocytes from WT, mdx:utrn–/–, and mdx:utrn–/–:sln+/– mice. We used 5–12 myocytes per mouse heart. n = 3 mice per genotype. (C) Representative Western blots (left panel) and quantitation (right panel) showing MCU and MICU1 protein levels in the ventricles of WT, mdx:utrn–/–, and mdx:utrn–/–:sln+/– mice. For Western blotting, 10 μg of pro tein is loaded per well. n = 5 mice per genotype. Data were analyzed by ordinary 1-way ANOVA for multigroup comparisons. Values shown are means ± SE.