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Literature DB >> 24814482

Pharmacological Inhibition of poly(ADP-ribose) polymerases improves fitness and mitochondrial function in skeletal muscle.

Eija Pirinen¹, Carles Cantó², Young Suk Jo³, Laia Morato⁴, Hongbo Zhang³, Keir J Menzies³, Evan G Williams³, Laurent Mouchiroud³, Norman Moullan³, Carolina Hagberg⁵, Wei Li⁶, Silvie Timmers⁷, Ralph Imhof⁸, Jef Verbeek⁹, Aurora Pujol¹⁰, Barbara van Loon⁸, Carlo Viscomi¹¹, Massimo Zeviani¹¹, Patrick Schrauwen¹², Anthony A Sauve⁶, Kristina Schoonjans¹³, Johan Auwerx¹⁴.

Abstract

We previously demonstrated that the deletion of the poly(ADP-ribose)polymerase (Parp)-1 gene in mice enhances oxidative metabolism, thereby protecting against diet-induced obesity. However, the therapeutic use of PARP inhibitors to enhance mitochondrial function remains to be explored. Here, we show tight negative correlation between Parp-1 expression and energy expenditure in heterogeneous mouse populations, indicating that variations in PARP-1 activity have an impact on metabolic homeostasis. Notably, these genetic correlations can be translated into pharmacological applications. Long-term treatment with PARP inhibitors enhances fitness in mice by increasing the abundance of mitochondrial respiratory complexes and boosting mitochondrial respiratory capacity. Furthermore, PARP inhibitors reverse mitochondrial defects in primary myotubes of obese humans and attenuate genetic defects of mitochondrial metabolism in human fibroblasts and C. elegans. Overall, our work validates in worm, mouse, and human models that PARP inhibition may be used to treat both genetic and acquired muscle dysfunction linked to defective mitochondrial function.

Entities: Chemical

Mesh：

Substances：

Year: 2014 PMID： 24814482 PMCID： PMC4047186 DOI： 10.1016/j.cmet.2014.04.002

Source DB: PubMed Journal: Cell Metab ISSN： 1550-4131 Impact factor: 27.287

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