Artemisinin and its derivatives target mitochondrial c-type cytochromes in yeast and human cells

2020

Article référencé dans le Web of Science WOS:000520945300004

Laleve A., Panozzo C., Kuhl I., Bourand-Plantefol A., Ostojic J., Sissoko A., Tribouillard-Tanvier D., Cornu D., Burg A., Meunier B., Blondel M., Clain J., Bonnefoy N., Duval Romain, Dujardin G.

Biochimica et Biophysica Acta - Molecular Cell Research, 2020, 1867 (5), art. 118661 [11 p.] ISSN 0167-4889

Artemisinin and its derivatives kill malaria parasites and inhibit the proliferation of cancer cells. In both processes, heme was shown to play a key role in artemisinin bioactivation. We found that artemisinin and clinical artemisinin derivatives are able to compensate for a mutation in the yeast Bcsl protein, a key chaperon involved in biogenesis of the mitochondrial respiratory complex III. The equivalent Bcsl variant causes an encephalopathy in human by affecting complex III assembly. We show that artemisinin derivatives decrease the content of mitochondrial cytochromes and disturb the maturation of the complex III cytochrome cl. This last effect is likely responsible for the compensation by decreasing the detrimental over-accumulation of the inactive pre-complex III observed in the bcs1 mutant. We further show that a fluorescent dihydroartemisinin probe rapidly accumulates in the mitochondrial network and targets cytochromes c and c1 in yeast, human cells and isolated mitochondria. in vitro this probe interacts with purified cytochrome c only under reducing conditions and we detect cytochrome c-dihydroartemisinin covalent adducts by mass spectrometry analyses. We propose that reduced mitochondrial c-type cytochromes act as both targets and mediators of artemisinin bioactivation in yeast and human cells.

Sciences fondamentales / Techniques d'analyse et de recherche [020] ; Santé : généralités [050] ; Sciences du monde végétal [076]

Fonds IRD [F B010078876]

fdi:010078876