Plasma tumour necrosis factor correlates with mRNA expression of tumour necrosis factor and mitochondrial transcription factors in skeletal muscle in patients with chronic heart failure treated with cardiac resynchronization therapy: potential role in myopathy
Restricted accessLetterFirst published online December, 2020
Plasma tumour necrosis factor correlates with mRNA expression of tumour necrosis factor and mitochondrial transcription factors in skeletal muscle in patients with chronic heart failure treated with cardiac resynchronization therapy: potential role in myopathy
LarsenAILindalSMyrengK, et al.Cardiac resynchronization therapy improves minute ventilation/carbon dioxide production slope and skeletal muscle capillary density without reversal of skeletal muscle pathology or inflammation. Europace2013; 6: 857–864.
2.
LarsenAILindalSAukrustP, et al.Effect of exercise training on skeletal muscle fibre characteristics in men with chronic heart failure. Correlation between skeletal muscle changes, cytokines and exercise capacity. Int J Cardiol2002; 83: 25–32.
3.
NakanoMKnowltonAADibbsZ, et al.Tumor necrosis factor-alpha confers resistance to hypoxic injury in the adult mammalian cardiac myocyte. Circulation1998; 97: 1392–1400.
4.
SaghizadehMOngJMGarveyWT, et al.The expression of TNF alpha by human muscle. Relationship to insulin resistance. J Clin Invest1996; 97: 1111–1116.
5.
LiYPScwartzRJWaddellID, et al.Skeletal muscle myocytes undergo protein loss and reactive and oxygen mediated NF kappa B activation in response to tumor necrosis factor alpha. FASEB J1998; 12: 871–880.
6.
DuguezSFéassonLDenisC, et al.Mitochondrial biogenesis during skeletal muscle regeneration. Am J Physiol Endocrinol Metab2002; 282: E802–E809.
7.
PilegaardHSaltinBNeuferPD. Exercise induces transient transcriptional activation of the PGC-1alpha gene in human skeletal muscle. J Physiol2003; 546: 851–858.
8.
CostfordSRBajpeyiSPasaricaM, et al.Skeletal muscle NAMPT is induced by exercise in humans. Am J Physiol Endocrinol Metab2010; 298: E117–E126.
9.
Marín-GarcíaJGoldenthalMJMoeGW. Abnormal cardiac and skeletal muscle mitochondrial function in pacing-induced cardiac failure. Cardiovasc Res2001; 52: 103–110.
10.
GielenSAdamsVMobius-WinklerS, et al.Anti-inflammatory effects of exercise training in the skeletal muscle of patients with chronic heart failure. J Am Coll Cardiol2003; 42: 861–868.
11.
LaoutarisID. The ‘aerobic/resistance/inspiratory muscle training hypothesis in heart failure’. Eur J Prev Cardiol2018; 25: 1257–1262.
12.
Fernandes-SilvaMMGuimarãesGVRigaudVO, et al.Inflammatory biomarkers and effect of exercise on functional capacity in patients with heart failure: Insights from a randomized clinical trial. Eur J Prev Cardiol2017; 24: 808–817.
