Abstract
In eukaryotes, proteins are imported into mitochondria via multiprotein translocases of the mitochondrial outer and inner membranes, TOM and TIM, respectively. Trypanosoma brucei, a hemoflagellated parasitic protozoan and the causative agent of African trypanosomiasis, imports about a thousand proteins into the mitochondrion; however, the mitochondrial protein import machinery in this organism is largely unidentified. Here, we characterized a homolog of Tim50 that is localized in the mitochondrial membrane in T. brucei. Similar to Tim50 proteins from fungi and mammals, Tim50 in T. brucei (TbTim50) possesses a mitochondrial targeting signal at its N terminus and a C-terminal domain phosphatase motif at its C terminus. Knockdown of TbTim50 reduced cell growth and inhibited import of proteins that contain N-terminal targeting signals. Co-immunoprecipitation analysis revealed that TbTim50 interacts with TbTim17. Unlike its fungal counterpart but similar to the human homolog of Tim50, recombinant TbTim50 possesses a dual specificity phosphatase activity with a greater affinity for protein tyrosine phosphate than for protein serine/threonine phosphate. Mutation of the aspartic acid residues to alanine in the C-terminal domain phosphatase motif (242)DXDX(V/T)(246) abolished activity for both type of substrates. TbTim50 knockdown increased and its overexpression decreased the level of voltage-dependent anion channel (VDAC). However, the VDAC level was unaltered when the phosphatase-inactive mutant of TbTim50 was overexpressed, suggesting that the phosphatase activity of TbTim50 plays a role in regulation of VDAC expression. In contrast, phosphatase activity of the TbTim50 is required neither for mitochondrial protein import nor for its interaction with TbTim17. Overall, our results show that TbTim50 plays additional roles in mitochondrial activities besides preprotein translocation.
Highlights
Tim50 is a preprotein receptor for the TIM23 complex in mitochondria
Orthologs of T. brucei Tim50 (TbTim50) are conserved in other kinetoplastid parasites, such as Trypanosoma cruzi and different Leishmania species as found by analysis using genome database (GeneDB)
These results indicate that the phosphatase activity of TbTim50 is possibly involved in post-translational modification of voltage-dependent anion channel (VDAC), which in turn may modulate the level of this protein
Summary
Tim is a preprotein receptor for the TIM23 complex in mitochondria. Results: T. brucei Tim (TbTim50), a protein phosphatase, is involved in the regulation of VDAC expression, interacts with TbTim, and imports precursor proteins into mitochondria. Similar to Tim proteins from fungi and mammals, Tim in T. brucei (TbTim50) possesses a mitochondrial targeting signal at its N terminus and a C-terminal domain phosphatase motif at its C terminus. The TIM23 complex is responsible for translocating preproteins that contain an N-terminal targeting sequence to the mitochondrial matrix [3, 5] It translocates some mitochondrial inner membrane proteins that possess an additional sorting signal [14, 15]. Several reports have indicated that in higher eukaryotes, Tim plays additional roles besides mitochondrial protein import, including effects on steroidogenesis [24], development [25, 26], apoptosis [27], and the maintenance of mitochondrial outer membrane integrity [27, 28].
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