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The iron chelator Deferasirox causes severe mitochondrial swelling without depolarization due to a specific effect on inner membrane permeability

Esther Maria Gottwald, Claus D. Schuh, Patrick Drücker, Dominik Haenni, Adam Pearson, Susan Ghazi, Milica Bugarski, Marcello Polesel, Michael Duss, Ehud M. Landau, Andres Kaech, Urs Ziegler, Anne Kristine Lundby, Carsten Lundby, Petra S. Dittrich, Andrew M. Hall

2020Scientific Reports38 citationsDOIOpen Access PDF

Abstract

The iron chelator Deferasirox (DFX) causes severe toxicity in patients for reasons that were previously unexplained. Here, using the kidney as a clinically relevant in vivo model for toxicity together with a broad range of experimental techniques, including live cell imaging and in vitro biophysical models, we show that DFX causes partial uncoupling and dramatic swelling of mitochondria, but without depolarization or opening of the mitochondrial permeability transition pore. This effect is explained by an increase in inner mitochondrial membrane (IMM) permeability to protons, but not small molecules. The movement of water into mitochondria is prevented by altering intracellular osmotic gradients. Other clinically used iron chelators do not produce mitochondrial swelling. Thus, DFX causes organ toxicity due to an off-target effect on the IMM, which has major adverse consequences for mitochondrial volume regulation.

Topics & Concepts

Mitochondrial permeability transition poreMitochondrionToxicityMitochondrial toxicityBiophysicsDeferasiroxMembrane permeabilityDepolarizationSwellingIntracellularInner mitochondrial membranePermeability (electromagnetism)Membrane potentialChemistryIn vitroCell biologyPharmacologyBiologyBiochemistryMembraneMedicineProgrammed cell deathApoptosisPathologyInternal medicineOrganic chemistryThalassemiaMitochondrial Function and PathologyTrace Elements in HealthHemoglobinopathies and Related Disorders