Abstract
Mitochondrial defects can cause a variety of human diseases and protective mechanisms exist to maintain mitochondrial functionality. Imbalances in mitochondrial proteostasis trigger a transcriptional program, termed mitochondrial unfolded protein response (mtUPR). However, the temporal sequence of events in mtUPR is unclear and the consequences on mitochondrial protein import are controversial. Here, we have quantitatively analyzed all main import pathways into mitochondria after different time spans of mtUPR induction. Kinetic analyses reveal that protein import into all mitochondrial subcompartments strongly increases early upon mtUPR and that this is accompanied by rapid remodelling of the mitochondrial signature lipid cardiolipin. Genetic inactivation of cardiolipin synthesis precluded stimulation of protein import and compromised cellular fitness. At late stages of mtUPR upon sustained stress, mitochondrial protein import efficiency declined. Our work clarifies the enigma of protein import upon mtUPR and identifies sequential mtUPR stages, in which an early increase in protein biogenesis to restore mitochondrial proteostasis is followed by late stages characterized by a decrease in import capacity upon prolonged stress induction.
Highlights
Mitochondria are essential organelles and dysfunctions can cause severe human disorders [1,2,3,4]
Protective mechanisms exist that are triggered upon mitochondrial dysfunction: Imbalances in mitochondrial proteostasis are sensed by the cell and elicit a nuclear transcriptional response, termed mitochondrial unfolded protein response
Mitochondrial protein import is stimulated upon early mitochondrial unfolded protein response (mtUPR)
Summary
Mitochondria are essential organelles and dysfunctions can cause severe human disorders [1,2,3,4]. Just as ATFS-1 Rox changes its subcelluar distribution upon mtUPR, but in the opposite direction: Usually localized to the nucleus, Rox re-translocates to and is imported into mitochondria upon mtUPR, where it binds to mitochondrial DNA (mtDNA), thereby maintaining mitochondrial transcription and translation. This protective function of Rox depends on its efficient import into mitochondria raising the exciting hypothesis that mtUPR proceeds in different temporal stages: early phases in which protein import competence into mitochondria is maintained and late stages that are characterized by a decrease in protein import. This hypothesis challenges the current paradigm that impaired protein import is an essential prerequisite for mtUPR induction
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