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High‐content screening identifies inhibitors of oxidative stress‐induced parthanatos: cytoprotective and anti‐inflammatory effects of ciclopirox

Zsolt Regdon, Máté Demény, Katalin Kovács, Zoltán Hajnády, Máté Nagy‐Pénzes, Edina Bakondi, Alexandra Kiss, Csaba Hegedűs, László Virág

2020British Journal of Pharmacology19 citationsDOIOpen Access PDF

Abstract

Background and Purpose Excessive oxidative stress can induce PARP1‐mediated programmed necrotic cell death, termed parthanatos. Inhibition of parthanatos may be therapeutically beneficial in a wide array of diseases associated with tissue injury and inflammation. Our goal was to identify novel molecules inhibiting parthanatos. Experimental Approach A small library of 774 pharmacologically active compounds was screened in a Sytox Green uptake assay, which identified 20 hits that reduced hydrogen‐peroxide‐induced parthanatos with an efficiency comparable to the benchmark PARP inhibitor, PJ34. Key Results Of these hits, two compounds, antifungal ciclopirox and dopamine receptor agonist apomorphine, inhibited PAR polymer synthesis. These two compounds prevented the binding of PARP1 to oxidatively damaged DNA but did not directly interfere with the interaction between DNA and PARP1. Both compounds inhibited mitochondrial superoxide and H 2 O 2 production and suppressed DNA breakage. Since H 2 O 2 ‐induced damage is dependent on Fe 2+ ‐catalysed hydroxyl radical production (Fenton chemistry), we determined the iron chelation activity of the two test compounds and found that ciclopirox and, to a lesser extent, apomorphine act as iron chelators. We also show that the Fe 2+ chelation and indirect PARP inhibitory effects of ciclopirox translate to anti‐inflammatory actions as demonstrated in a mouse dermatitis model, where ciclopirox reduced ear swelling, inflammatory cell recruitment and poly(ADP‐ribosyl)ation. Conclusion and Implications Our findings indicate that the antimycotic drug, ciclopirox, acts as an iron chelator and thus targets an early event in hydrogen‐peroxide‐induced parthanatos. Ciclopirox has the potential to be repurposed as a cytoprotective and anti‐inflammatory agent.

Topics & Concepts

DNA damageOxidative stressReactive oxygen speciesChemistryProgrammed cell deathBiochemistryPharmacologyCell biologyBiologyBiophysicsApoptosisDNAEffects of Radiation ExposurePARP inhibition in cancer therapySirtuins and Resveratrol in Medicine
High‐content screening identifies inhibitors of oxidative stress‐induced parthanatos: cytoprotective and anti‐inflammatory effects of ciclopirox | Litcius