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Bloodstream T. brucei Adapts to Decreased Levels of Functional FoF1-ATPase subunit A6
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SYSNO ASEP 0488331 Document Type O - Others R&D Document Type Others Title Bloodstream T. brucei Adapts to Decreased Levels of Functional FoF1-ATPase subunit A6 Author(s) Veselíková, M. (CZ)
Panicucci, Brian (BC-A)
Zíková, Alena (BC-A) RID, ORCIDYear of issue 2015 Language eng - English Country CZ - Czech Republic Keywords bloodstream ; T. brucei ; ATPase Subject RIV EB - Genetics ; Molecular Biology OECD category Biochemistry and molecular biology R&D Projects LL1205 GA MŠMT - Ministry of Education, Youth and Sports (MEYS) Institutional support BC-A - RVO:60077344 Annotation The infective bloodstream stage (BS) of Trypanosoma brucei possesses a single mitochondrion that lacks cytochrome-containing respiratory complexes III and IV and thus employs the FoF1-ATPase to hydrolyze matrix ATP to maintain the essential mitochondrial (mt) membrane potential (m). Due to this reduced organellar function, it is currently presumed that out of the 18 (mt) encoded proteins, only A6 (a subunit of FoF1-ATPase) and possibly RPS12 (a ribosomal subunit) are essential in BS trypanosomes. However, dyskinetoplastic trypanosomes, parasites locked in the bloodstream stage because they have lost their mtDNA, have found a way to maintain their m with FoF1-ATPase lacking the A6 proton pore. To explore how BS T. brucei cope with a decrease in functional A6, we generated a double knock-out cell line for the mt peptide release factor (TbMrf1). This interference with the mt translation machinery resulted in a TbMrf1 cell line with a decreased m, a decreased abundance of the FoF1-ATPase, and an increased sensitivity to FoF1-ATPase and ATP/ADP carrier inhibitors. Furthermore, while the TbMrf1 cells are viable when cultivated in vitro, it appears that they are less virulent in the mouse model, suggesting a greater reliance on mt metabolism in vivo. Importantly, in vitro cultivation over several weeks dissipates the decreased m phenotype, perhaps as the cells adapt to the depletion of functional A6 by unknown mechanism. Recently, the release factor family protein ICT1 was described to act as a mito ribosome recycling factor in case of stalled translation in human mitochondria. The function of TbICT1 homologue in TbMrf1 background is currently investigated. Workplace Biology Centre (since 2006) Contact Dana Hypšová, eje@eje.cz, Tel.: 387 775 214 Year of Publishing 2018 Electronic address http://www.parazitologie.cz/protozoologie/Protodny2015/JPD_sbornik_2015.pdf
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