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  2. Identification of ER-000444793, a Cyclophilin D-independent inhibitor of mitochondrial permeability transition, using a high-throughput screen in cryopreserved mitochondria

Identification of ER-000444793, a Cyclophilin D-independent inhibitor of mitochondrial permeability transition, using a high-throughput screen in cryopreserved mitochondria

  • Sci Rep. 2016 Nov 25;6:37798. doi: 10.1038/srep37798.
Thomas Briston 1 Sian Lewis 1 Mumta Koglin 1 Kavita Mistry 1 Yongchun Shen 2 Naomi Hartopp 1 Ryosuke Katsumata 3 Hironori Fukumoto 4 Michael R Duchen 5 Gyorgy Szabadkai 5 6 James M Staddon 1 Malcolm Roberts 1 Ben Powney 1
Affiliations

Affiliations

  • 1 UCL Collaboration Research Group, NGM-PCU, Eisai Ltd., Hatfield, UK.
  • 2 Next Generation Systems CFU, Eisai Inc., Andover, MA, USA.
  • 3 Next Generation Systems CFU, Eisai Co., Ltd, Tsukuba, Japan.
  • 4 NGM-PCU, Eisai Co. Ltd., Tsukuba Research Laboratories, Tsukuba, Japan.
  • 5 Department of Cell and Developmental Biology, University College London, London, UK.
  • 6 Department of Biomedical Sciences, University of Padua, Padua, Italy.
Abstract

Growing evidence suggests persistent mitochondrial permeability transition pore (mPTP) opening is a key pathophysiological event in cell death underlying a variety of diseases. While it has long been clear the mPTP is a druggable target, current agents are limited by off-target effects and low therapeutic efficacy. Therefore identification and development of novel inhibitors is necessary. To rapidly screen large compound libraries for novel mPTP modulators, a method was exploited to cryopreserve large batches of functionally active mitochondria from cells and tissues. The cryopreserved mitochondria maintained respiratory coupling and ATP synthesis, CA2+ uptake and transmembrane potential. A high-throughput screen (HTS), using an assay of CA2+-induced mitochondrial swelling in the cryopreserved mitochondria identified ER-000444793, a potent inhibitor of mPTP opening. Further evaluation using assays of CA2+-induced membrane depolarisation and CA2+ retention capacity also indicated that ER-000444793 acted as an inhibitor of the mPTP. ER-000444793 neither affected Cyclophilin D (CypD) enzymatic activity, nor displaced of CsA from CypD protein, suggesting a mechanism independent of CypD inhibition. Here we identified a novel, CypD-independent inhibitor of the mPTP. The screening approach and compound described provides a workflow and additional tool to aid the search for novel mPTP modulators and to help understand its molecular nature.

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