Author:
Pelosi Ludovic,Morbiato Laura,Burgardt Arthur,Tonello Fiorella,Bartlett Abigail K.,Guerra Rachel M.,Ferizhendi Katayoun Kazemzadeh,Desbats Maria Andrea,Rascalou Bérengère,Marchi Marco,Vázquez-Fonseca Luis,Agosto Caterina,Zanotti Giuseppe,Roger-Margueritat Morgane,Alcázar-Fabra María,García-Corzo Laura,Sánchez-Cuesta Ana,Navas Plácido,Brea-Calvo Gloria,Trevisson Eva,Wendisch Volker F.,Pagliarini David J.,Salviati Leonardo,Pierrel Fabien
Abstract
SUMMARYCoenzyme Q (CoQ) is a redox lipid that fulfills critical functions in cellular bioenergetics and homeostasis. CoQ is synthesized by a multi-step pathway that involves several COQ proteins. Two steps of the eukaryotic pathway, the decarboxylation and hydroxylation of position C1, have remained uncharacterized. Here, we provide evidence that these two reactions occur in a single oxidative decarboxylation step catalyzed by COQ4. We demonstrate that COQ4 complements anEscherichia colistrain deficient for C1 decarboxylation and hydroxylation and that COQ4 displays oxidative decarboxylation activity in the non-CoQ producerCorynebacterium glutamicum. Overall, our results substantiate that COQ4 contributes to CoQ biosynthesis, not only via its previously proposed structural role, but also via oxidative decarboxylation of CoQ precursors. These findings fill a major gap in the knowledge of eukaryotic CoQ biosynthesis, and shed new light on the pathophysiology of human primary CoQ deficiency due toCOQ4mutations.
Publisher
Cold Spring Harbor Laboratory