Author
Listed:
- Jennifer M. Peterson
(Department of Cancer Biology and Genetics
Center for Muscle Health and Neuromuscular Disorders
The Ohio State University Medical Center
SUNY Binghamton University)
- David J. Wang
(Department of Cancer Biology and Genetics
The Ohio State University Medical Center
Medical University of South Carolina, Charleston)
- Vikram Shettigar
(Center for Muscle Health and Neuromuscular Disorders
The Ohio State University Medical Center
The Ohio State University Medical Center)
- Steve R. Roof
(Center for Muscle Health and Neuromuscular Disorders
The Ohio State University Medical Center
The Ohio State University Medical Center
Q Test Labs)
- Benjamin D. Canan
(Center for Muscle Health and Neuromuscular Disorders
The Ohio State University Medical Center
The Ohio State University Medical Center)
- Nadine Bakkar
(Department of Cancer Biology and Genetics
Center for Muscle Health and Neuromuscular Disorders
The Ohio State University Medical Center
St Joseph’s Hospital and Medical Center-Barrow Neurological Institute)
- Jonathan Shintaku
(Department of Cancer Biology and Genetics
Center for Muscle Health and Neuromuscular Disorders
The Ohio State University Medical Center
Columbia University Medical Center)
- Jin-Mo Gu
(Department of Cancer Biology and Genetics
Center for Muscle Health and Neuromuscular Disorders
The Ohio State University Medical Center
Emory University)
- Sean C. Little
(Center for Muscle Health and Neuromuscular Disorders
The Ohio State University Medical Center
The Ohio State University Medical Center
Bristol-Myers Squibb)
- Nivedita M. Ratnam
(Department of Cancer Biology and Genetics
The Ohio State University Medical Center)
- Priya Londhe
(Department of Cancer Biology and Genetics
Center for Muscle Health and Neuromuscular Disorders
The Ohio State University Medical Center
Tufts Medical Center)
- Leina Lu
(The Chinese University of Hong Kong
Case Western Reserve University)
- Christopher E. Gaw
(The Ohio State University Medical Center
Children’s Hospital of Philadelphia)
- Jennifer M. Petrosino
(Center for Muscle Health and Neuromuscular Disorders
The Ohio State University Medical Center)
- Sandya Liyanarachchi
(Department of Cancer Biology and Genetics
The Ohio State University Medical Center)
- Huating Wang
(The Chinese University of Hong Kong)
- Paul M. L. Janssen
(Center for Muscle Health and Neuromuscular Disorders
The Ohio State University Medical Center
The Ohio State University Medical Center)
- Jonathan P. Davis
(Center for Muscle Health and Neuromuscular Disorders
The Ohio State University Medical Center
The Ohio State University Medical Center)
- Mark T. Ziolo
(Center for Muscle Health and Neuromuscular Disorders
The Ohio State University Medical Center
The Ohio State University Medical Center)
- Sudarshana M. Sharma
(Medical University of South Carolina)
- Denis C. Guttridge
(Department of Cancer Biology and Genetics
Center for Muscle Health and Neuromuscular Disorders
The Ohio State University Medical Center
Medical University of South Carolina, Charleston)
Abstract
Duchenne muscular dystrophy (DMD) is a neuromuscular disorder causing progressive muscle degeneration. Although cardiomyopathy is a leading mortality cause in DMD patients, the mechanisms underlying heart failure are not well understood. Previously, we showed that NF-κB exacerbates DMD skeletal muscle pathology by promoting inflammation and impairing new muscle growth. Here, we show that NF-κB is activated in murine dystrophic (mdx) hearts, and that cardiomyocyte ablation of NF-κB rescues cardiac function. This physiological improvement is associated with a signature of upregulated calcium genes, coinciding with global enrichment of permissive H3K27 acetylation chromatin marks and depletion of the transcriptional repressors CCCTC-binding factor, SIN3 transcription regulator family member A, and histone deacetylase 1. In this respect, in DMD hearts, NF-κB acts differently from its established role as a transcriptional activator, instead promoting global changes in the chromatin landscape to regulate calcium genes and cardiac function.
Suggested Citation
Jennifer M. Peterson & David J. Wang & Vikram Shettigar & Steve R. Roof & Benjamin D. Canan & Nadine Bakkar & Jonathan Shintaku & Jin-Mo Gu & Sean C. Little & Nivedita M. Ratnam & Priya Londhe & Leina, 2018.
"NF-κB inhibition rescues cardiac function by remodeling calcium genes in a Duchenne muscular dystrophy model,"
Nature Communications, Nature, vol. 9(1), pages 1-14, December.
Handle:
RePEc:nat:natcom:v:9:y:2018:i:1:d:10.1038_s41467-018-05910-1
DOI: 10.1038/s41467-018-05910-1
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