m‐AAA protease‐driven membrane dislocation allows intramembrane cleavage by rhomboid in mitochondria
Reads0
Chats0
TLDR
Findings reveal for the first time a non‐proteolytic function of the m‐AAA protease during mitochondrial biogenesis and rationalise the requirement of a preceding step for intramembrane cleavage by rhomboid.Abstract:
Maturation of cytochrome c peroxidase (Ccp1) in mitochondria occurs by the subsequent action of two conserved proteases in the inner membrane: the m-AAA protease, an ATP-dependent protease degrading misfolded proteins and mediating protein processing, and the rhomboid protease Pcp1, an intramembrane cleaving peptidase. Neither the determinants preventing complete proteolysis of certain substrates by the m-AAA protease, nor the obligatory requirement of the m-AAA protease for rhomboid cleavage is currently understood. Here, we describe an intimate and unexpected functional interplay of both proteases. The m-AAA protease mediates the ATP-dependent membrane dislocation of Ccp1 independent of its proteolytic activity. It thereby ensures the correct positioning of Ccp1 within the membrane bilayer allowing intramembrane cleavage by rhomboid. Decreasing the hydrophobicity of the Ccp1 transmembrane segment facilitates its dislocation from the membrane and renders rhomboid cleavage m-AAA protease-independent. These findings reveal for the first time a non-proteolytic function of the m-AAA protease during mitochondrial biogenesis and rationalise the requirement of a preceding step for intramembrane cleavage by rhomboid.read more
Citations
More filters
Journal ArticleDOI
A role for cytochrome c and cytochrome c peroxidase in electron shuttling from Erv1
Deepa V. Dabir,Edward P. Leverich,Sung-Kun Kim,Sung-Kun Kim,Frederick D. Tsai,Masakazu Hirasawa,David B. Knaff,Carla M. Koehler +7 more
TL;DR: It is proposed that Erv1 utilizes diverse pathways for electron shuttling in the IMS by coupling these pathways, cytochrome c and Ccp1 function efficiently as ErV1‐dependent electron acceptors.
Journal ArticleDOI
Ubiquitin-dependent intramembrane rhomboid protease promotes ERAD of membrane proteins.
TL;DR: The evolutionary conserved rhomboid family protein RHBDL4 is a ubiquitin-dependent ER-resident intramembrane protease that is upregulated upon ER stress and specifically binds the AAA+-ATPase p97, suggesting that proteolytic processing and dislocation into the cytosol are functionally linked.
Journal ArticleDOI
Processing of mitochondrial presequences.
TL;DR: Besides the classical presequence peptidases MPP, IMP and Oct1, several novel proteases have recently been described to possess precursor processing activity, and analysis of their functional relevance revealed a tight connection between precursor processing, mitochondrial dynamics and protein quality control.
Journal ArticleDOI
Rhomboid protease PARL mediates the mitochondrial membrane potential loss-induced cleavage of PGAM5.
Shiori Sekine,Yusuke Kanamaru,Masato Koike,Ayako Nishihara,Masahiro Okada,Hideyuki Kinoshita,Miki Kamiyama,Jun-ichi Maruyama,Yasuo Uchiyama,Naotada Ishihara,Kohsuke Takeda,Kohsuke Takeda,Hidenori Ichijo +12 more
TL;DR: The data provide a prototypical example of stress-dependent regulation of PARL-mediated regulated intramembrane proteolysis and suggest that PARL mediates differential cleavage of PINK1 and PGAM5 depending on the health status of mitochondria.
Journal ArticleDOI
The Intermembrane Space of Mitochondria
Johannes M. Herrmann,Jan Riemer +1 more
TL;DR: This work focuses on the different biologic functions of the intermembrane space and discusses the relevance of this fascinating compartment for cellular physiology and human health.
References
More filters
Journal ArticleDOI
AAA+ proteins: have engine, will work.
TL;DR: The structural organization of AAA+ proteins, the conformational changes they undergo, the range of different reactions they catalyse, and the diseases associated with their dysfunction are reviewed.
Journal ArticleDOI
Proteolysis: from the lysosome to ubiquitin and the proteasome.
TL;DR: In this paper, the ubiquitin-proteasome system resolved the enigma of how cellular proteins are degraded in the lysosome and showed that non-lysosomal pathways have an important role in intracellular proteolysis, although their identity and mechanisms of action remained obscure.
Journal ArticleDOI
Regulation of mitochondrial morphology through proteolytic cleavage of OPA1.
TL;DR: M mammalian mitochondrial function and morphology is regulated through processing of OPA1 in a ΔΨ‐dependent manner through proteolytic cleavage of Mgm1, the yeast homolog of O PA1.
Journal ArticleDOI
Solvation Energies of Amino Acid Side Chains and Backbone in a Family of Host−Guest Pentapeptides
TL;DR: The very large peptide bond ASP, -96 +/- 6 cal/mol/A2, profoundly affects the results of computational comparisons of protein stability which use ASPs derived from octanol-water partitioning data.
Journal ArticleDOI
Sculpting the Proteome with AAA+ Proteases and Disassembly Machines
Robert T. Sauer,Daniel N. Bolon,Briana M. Burton,Randall E. Burton,Julia M. Flynn,Robert A. Grant,Greg L. Hersch,Shilpa A. Joshi,Jon A. Kenniston,Igor Levchenko,Saskia B. Neher,Elizabeth S.C. Oakes,Samia M. Siddiqui,David A. Wah,Tania A. Baker +14 more
TL;DR: Exciting progress has been made in understanding how AAA(+) machines recognize specific proteins as targets and then carry out ATP-dependent dismantling of the tertiary and/or quaternary structure of these molecules during the processes of protein degradation and the disassembly of macromolecular complexes.