Your search keyword '"Korbinian Niedermüller"' showing total 5 results

1. A patatin-like phospholipase is important for mitochondrial function in malaria parasites

Author

Emma Pietsch, Abhinay Ramaprasad, Sabrina Bielfeld, Yvonne Wohlfarter, Bohumil Maco, Korbinian Niedermüller, Louisa Wilcke, Joachim Kloehn, Markus A. Keller, Dominique Soldati-Favre, Michael J. Blackman, Tim-Wolf Gilberger, and Paul-Christian Burda

Subjects

malaria, mitochondrion, patatin-like phospholipase, electron transport chain, cardiolipin, Microbiology, QR1-502

Abstract

ABSTRACTPlasmodium parasites rely on a functional electron transport chain (ETC) within their mitochondrion for proliferation, and compounds targeting mitochondrial functions are validated antimalarials. Here, we localize Plasmodium falciparum patatin-like phospholipase 2 (PfPNPLA2, PF3D7_1358000) to the mitochondrion and reveal that disruption of the PfPNPLA2 gene impairs asexual replication. PfPNPLA2-null parasites are hypersensitive to proguanil and inhibitors of the mitochondrial ETC, including atovaquone. In addition, PfPNPLA2-deficient parasites show reduced mitochondrial respiration and reduced mitochondrial membrane potential, indicating that disruption of PfPNPLA2 leads to a defect in the parasite ETC. Lipidomic analysis of the mitochondrial phospholipid cardiolipin (CL) reveals that loss of PfPNPLA2 is associated with a moderate shift toward shorter-chained and more saturated CL species, implying a contribution of PfPNPLA2 to CL remodeling. PfPNPLA2-deficient parasites display profound defects in gametocytogenesis, underlining the importance of a functional mitochondrial ETC during both the asexual and sexual development of the parasite.IMPORTANCEFor their proliferation within red blood cells, malaria parasites depend on a functional electron transport chain (ETC) within their mitochondrion, which is the target of several antimalarial drugs. Here, we have used gene disruption to identify a patatin-like phospholipase, PfPNPLA2, as important for parasite replication and mitochondrial function in Plasmodium falciparum. Parasites lacking PfPNPLA2 show defects in their ETC and become hypersensitive to mitochondrion-targeting drugs. Furthermore, PfPNPLA2-deficient parasites show differences in the composition of their cardiolipins, a unique class of phospholipids with key roles in mitochondrial functions. Finally, we demonstrate that parasites devoid of PfPNPLA2 have a defect in gametocyte maturation, underlining the importance of a functional ETC for parasite transmission to the mosquito vector.

Published

2023

2. Structures of three MORN repeat proteins and a re-evaluation of the proposed lipid-binding properties of MORN repeats.

Author

Sara Sajko, Irina Grishkovskaya, Julius Kostan, Melissa Graewert, Kim Setiawan, Linda Trübestein, Korbinian Niedermüller, Charlotte Gehin, Antonio Sponga, Martin Puchinger, Anne-Claude Gavin, Thomas A Leonard, Dimitri I Svergun, Terry K Smith, Brooke Morriswood, and Kristina Djinovic-Carugo

Subjects

Medicine, Science

Abstract

MORN (Membrane Occupation and Recognition Nexus) repeat proteins have a wide taxonomic distribution, being found in both prokaryotes and eukaryotes. Despite this ubiquity, they remain poorly characterised at both a structural and a functional level compared to other common repeats. In functional terms, they are often assumed to be lipid-binding modules that mediate membrane targeting. We addressed this putative activity by focusing on a protein composed solely of MORN repeats-Trypanosoma brucei MORN1. Surprisingly, no evidence for binding to membranes or lipid vesicles by TbMORN1 could be obtained either in vivo or in vitro. Conversely, TbMORN1 did interact with individual phospholipids. High- and low-resolution structures of the MORN1 protein from Trypanosoma brucei and homologous proteins from the parasites Toxoplasma gondii and Plasmodium falciparum were obtained using a combination of macromolecular crystallography, small-angle X-ray scattering, and electron microscopy. This enabled a first structure-based definition of the MORN repeat itself. Furthermore, all three structures dimerised via their C-termini in an antiparallel configuration. The dimers could form extended or V-shaped quaternary structures depending on the presence of specific interface residues. This work provides a new perspective on MORN repeats, showing that they are protein-protein interaction modules capable of mediating both dimerisation and oligomerisation.

Published

2020

3. Disruption of aPlasmodium falciparumpatatin-like phospholipase delays male gametocyte exflagellation

Author

Emma Pietsch, Korbinian Niedermüller, Tim-Wolf Gilberger, and Paul-Christian Burda

Abstract

An essential process in transmission of the malaria parasite to theAnophelesvector is the conversion of mature gametocytes into gametes within the mosquito gut, where they egress from the red blood cell (RBC). During egress, male gametocytes undergo exflagellation, leading to the formation of eight haploid motile microgametes, while female gametes retain their spherical shape. Gametocyte egress depends on sequential disruption of the parasitophorous vacuole membrane and the host cell membrane. In other life cycle stages of the malaria parasite, phospholipases have been implicated in membrane disruption processes during egress, however their importance for gametocyte egress is relatively unknown. Here, we performed comprehensive functional analyses of six putative phospholipases for their role during development and egress ofPlasmodium falciparumgametocytes. We localize two of them, the prodrug activation and resistance esterase (PF3D7_0709700) and the lysophospholipase 1 (PF3D7_1476700), to the parasite plasma membrane. Subsequently, we show that disruption of most of the studied phospholipase genes does neither affect gametocyte development nor egress. The exception is the putative patatin-like phospholipase PF3D7_0924000, whose gene deletion leads to a delay in male gametocyte exflagellation, indicating an important, albeit not essential, role of this enzyme in male gametogenesis.

Published

2023

4. Endocytosis is required for access of surface-bound cargo to the flagellar pocket of trypanosomes

Author

Daja Schichler, Eva-Maria Spath, Antonia Konle, Sina Riegler, Alexandra Klein, Anna Seleznev, Sisco Jung, Tim Wuppermann, Noah Wetterich, Alyssa Borges, Elisabeth Meyer-Natus, Katharina Havlicek, Sonia Pérez Cabrera, Korbinian Niedermüller, Sara Sajko, Maximilian Dohn, Xenia Malzer, Emily Riemer, Tuguldur Tumurbaatar, Kristina Djinovic-Carugo, Gang Dong, Christian J. Janzen, and Brooke Morriswood

Abstract

All endo- and exocytosis in the African trypanosome Trypanosoma brucei occurs at a single subdomain of the plasma membrane. This subdomain, the flagellar pocket, is a small vase-shaped invagination containing the root of the cell’s single flagellum. Several cytoskeleton-associated multiprotein complexes are coiled around the neck of the flagellar pocket on its cytoplasmic face. One of these, the hook complex, may affect macromolecule entry into the flagellar pocket lumen. In previous work, knockdown of the hook complex component TbMORN1 resulted in larger cargo being unable to enter the flagellar pocket. In this study, the hook complex component TbSmee1 was characterised in bloodstream form Trypanosoma brucei and was found to be essential for cell viability. TbSmee1 knockdown resulted in flagellar pocket enlargement, and impaired access to the pocket membrane by surface-bound cargo. Inhibition of endocytosis by knockdown of clathrin phenocopied TbSmee1 knockdown, suggesting that endocytic activity itself is a prerequisite for the entry of surface-bound cargo into the flagellar pocket.SummaryCharacterisation of the essential trypanosome protein TbSmee1 suggests that endocytosis is required for flagellar pocket access of surface-bound cargo

Published

2022

5. Author Reply to Peer Reviews of Structures of three MORN repeat proteins and a re-evaluation of the proposed lipid-binding properties of MORN repeats

Author

Kristina Djinovic-Carugo, Brooke Morriswood, Terry K. Smith, Dimitri Svergun, Thomas Leonard, Anne-Claude Gavin, Martin Puchinger, Antonio Sponga, Charlotte Gehin, Korbinian Niedermüller, Linda Trübestein, Kim Setiawan, Melissa Graewert, Julius Kostan, Irina Grishkovskaya, and Sara Sajko

Published

2020