Unclogging of the TOM complex under import stress

Abstract

Mitochondrial functions and biogenesis depend on the import of more than 1,000 proteins which are synthesized as precursor proteins on cytosolic ribosomes. Mitochondrial protein translocases sort the precursor proteins into the mitochondrial sub-compartments: outer and inner membrane, the intermembrane space and the matrix. The translocase of the outer mitochondrial membrane (TOM complex) constitutes the major import site for most of these precursor proteins. Defective protein translocases, premature folding of the precursor, or depletion of the membrane potential can cause clogging of the TOM channel by a precursor protein. This clogging impairs further protein import and leads to accumulation of precursor proteins in the cell that perturbates protein homeostasis, leading to proteotoxic stress in the cell. Therefore, unclogging of the translocon is critical for maintaining mitochondrial and cellular function. Ubiquitylation and AAA-ATPases play a central role in the extraction of the precursor proteins to deliver them to the proteasome for degradation. Here we summarize our understanding of the molecular mechanisms that remove such translocation-stalled precursor proteins from the translocation channel to regenerate the TOM complex for protein import.