TTC19 Plays a Husbandry Role on UQCRFS1 Turnover in the Biogenesis of Mitochondrial Respiratory Complex III.

TitleTTC19 Plays a Husbandry Role on UQCRFS1 Turnover in the Biogenesis of Mitochondrial Respiratory Complex III.
Publication TypeJournal Article
Year of Publication2017
AuthorsBottani, E, Cerutti, R, Harbour, ME, Ravaglia, S, Dogan, SAnil, Giordano, C, Fearnley, IM, d'Amati, G, Viscomi, C, Fernandez-Vizarra, E, Zeviani, M
JournalMol Cell
Date Published2017 Jun 15
ISSN1097-4164
Abstract

Loss-of-function mutations in TTC19 (tetra-tricopeptide repeat domain 19) have been associated with severe neurological phenotypes and mitochondrial respiratory chain complex III deficiency. We previously demonstrated the mitochondrial localization of TTC19 and its link with complex III biogenesis. Here we provide detailed insight into the mechanistic role of TTC19, by investigating a Ttc19(-/-) mouse model that shows progressive neurological and metabolic decline, decreased complex III activity, and increased production of reactive oxygen species. By using both the Ttc19(-/-) mouse model and a range of human cell lines, we demonstrate that TTC19 binds to the fully assembled complex III dimer, i.e., after the incorporation of the iron-sulfur Rieske protein (UQCRFS1). The in situ maturation of UQCRFS1 produces N-terminal polypeptides, which remain bound to holocomplex III. We show that, in normal conditions, these UQCRFS1 fragments are rapidly removed, but when TTC19 is absent they accumulate within complex III, causing its structural and functional impairment.

DOI10.1016/j.molcel.2017.06.001
Alternate JournalMol. Cell
Citation Key10.1016/j.molcel.2017.06.001
PubMed ID28673544