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. 2021 Nov;178(22):4518-4532.
doi: 10.1111/bph.15630. Epub 2021 Aug 18.

Approved drugs ezetimibe and disulfiram enhance mitochondrial Ca2+ uptake and suppress cardiac arrhythmogenesis

Paulina Sander  1 Michael Feng  2 Maria K Schweitzer  1 Fabiola Wilting  1 Sophie M Gutenthaler  1 Daniela M Arduino  2 Sandra Fischbach  1 Lisa Dreizehnter  3 Alessandra Moretti  3   4 Thomas Gudermann  1   4 Fabiana Perocchi  2   5 Johann Schredelseker  1   4
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Free article

Approved drugs ezetimibe and disulfiram enhance mitochondrial Ca2+ uptake and suppress cardiac arrhythmogenesis

Paulina Sander et al. Br J Pharmacol. 2021 Nov.
Free article

Abstract

Background and purpose: Treatment of cardiac arrhythmia remains challenging due to severe side effects of common anti-arrhythmic drugs. We previously demonstrated that mitochondrial Ca2+ uptake in cardiomyocytes represents a promising new candidate structure for safer drug therapy. However, druggable agonists of mitochondrial Ca2+ uptake suitable for preclinical and clinical studies are still missing.

Experimental approach: Herewe screened 727 compounds with a history of use in human clinical trials in a three-step screening approach. As a primary screening platform we used a permeabilized HeLa cell-based mitochondrial Ca2+ uptake assay. Hits were validated in cultured HL-1 cardiomyocytes and finally tested for anti-arrhythmic efficacy in three translational models: a Ca2+ overload zebrafish model and cardiomyocytes of both a mouse model for catecholaminergic polymorphic ventricular tachycardia (CPVT) and induced pluripotent stem cell derived cardiomyocytes from a CPVT patient.

Key results: We identifiedtwo candidate compounds, the clinically approved drugs ezetimibe and disulfiram, which stimulate SR-mitochondria Ca2+ transfer at nanomolar concentrations. This is significantly lower compared to the previously described mitochondrial Ca2+ uptake enhancers (MiCUps) efsevin, a gating modifier of the voltage-dependent anion channel 2, and kaempferol, an agonist of the mitochondrial Ca2+ uniporter. Both substances restored rhythmic cardiac contractions in a zebrafish cardiac arrhythmia model and significantly suppressed arrhythmogenesis in freshly isolated ventricular cardiomyocytes from a CPVT mouse model as well as induced pluripotent stem cell derived cardiomyocytes from a CPVT patient.

Conclusion and implications: Taken together we identified ezetimibe and disulfiram as novel MiCUps and efficient suppressors of arrhythmogenesis and as such as, promising candidates for future preclinical and clinical studies.

Keywords: CPVT; MCU; anti-arrhythmic; arrhythmia; mitochondria; mitochondrial Ca2+ uptake enhancers; mitochondrial Ca2+ uptake pathway.

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References

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