Glucose-induced regulation of protein import receptor Tom22 by cytosolic and mitochondria-bound kinases.

Most mitochondrial proteins are imported by the translocase of the outer mitochondrial membrane (TOM). Tom22 functions as central receptor and transfers preproteins to the import pore. Casein kinase 2 (CK2) constitutively phosphorylates the cytosolic precursor of Tom22 at Ser44 and Ser46 and, thus, promotes its import.

From inventory to functional mechanisms: regulation of the mitochondrial protein import machinery by phosphorylation.

For decades, the pyruvate dehydrogenase complex in the mitochondrial matrix was considered as a rare example of how protein kinases and phosphatases can regulate important functions within this organelle. During the last decade, several proteomic studies revealed that a large fraction of mitochondrial proteins are indeed phosphorylated. A surprisingly high number of phosphorylation sites was found at the preprotein import machinery, TOM, in the outer membrane that provides the central protein import gate for most mitochondrial precursors synthesized in the cytosol.

Signaling at the gate: phosphorylation of the mitochondrial protein import machinery.

Protein import into mitochondria is an essential process in every eukaryotic organism. While most of the components of the import machinery have been identified and are mechanistically quite well understood, regulation of this process had been a largely neglected area of research in the past. Recently, we demonstrated for the first time that the translocase of the outer mitochondrial membrane (TOM) is phosphorylated and regulated by several cytosolic protein kinases.

A novel intermembrane space-targeting signal docks cysteines onto Mia40 during mitochondrial oxidative folding.

Mia40 imports Cys-containing proteins into the mitochondrial intermembrane space (IMS) by ensuring their Cys-dependent oxidative folding. In this study, we show that the specific Cys of the substrate involved in docking with Mia40 is substrate dependent, the process being guided by an IMS-targeting signal (ITS) present in Mia40 substrates. The ITS is a 9-aa internal peptide that (a) is upstream or downstream of the docking Cys, (b) is sufficient for crossing the outer membrane and for targeting nonmitochondrial proteins, (c) forms an amphipathic helix with crucial hydrophobic residues on the side of the docking Cys and dispensable charged residues on the other side, and (d) fits complementary to the substrate cleft of Mia40 via hydrophobic interactions of micromolar affinity.