PARP-1 inhibition attenuates cardiac fibrosis induced by myocardial infarction through regulating autophagy.

ABSTRACT

Post-MI heart failure is characterized by structural remodeling, in which intramyocardial fibrosis takes a important part. Poly(ADP-ribose) polymerase 1 (PARP-1) is a extensive nuclear enzyme and plays a critical role in various diseases. It was shown that PARP-1 inhibition could alleviate heart failure and dowregulate autophagy, but whether PARP-1 regulates autophagy and thus impacts the activities of CFs remain unknown. We transfected cultured cardiac fibroblasts (CFs) with small interfere RNA-PARP-1 (siPARP-1) to downregulate PARP-1 and analyzed the ability of proliferation, migration, differentiation, and autophagy levels of CFs under different treatments using CCK8 assays, transwell migration assays, immunofluorescence assays detecting expression of α-SMA, western blot assays detecting autophagy-related proteins respectively. Furthermore, rat models of myocardial infarction (MI) were induced by ligation of left anterior descending coronary artery and PARP-1 inhibitor, 4-aminobenzamide (4-AB), was injected intraperitoneally after MI, followed by echocardiography detection, masson assays, immunohistochemistry assays detecting expression of α-SMA and western blot assays detecting autophagy-related proteins to investigate whether PARP-1 inhibition could regulate autophagy, alleviate cardiac fibrosis and improve cardiac function in vivo. In cultured CFs, siPARP-1 repressed TGF-ß1-induced proliferation, migration, and differentiation through regulating autophagic levels. The in vitro results was verified by the in vivo study, indicating that PARP-1 inhibition partially decreased autophagy, abrogated cardiac fibrosis and significantly improved cardiac function post-MI. In conclusion, this work demonstrated the vital connection of PARP-1 and autophagy in the activation of CFs, and provided solid evidence supporting PARP-1 inhibition as a feasible strategy for the treatment of post-MI heart failure.