Genetic validation of PfFKBP35 as an antimalarial drug target
Plasmodium falciparum accounts for the majority of over 600,000 malaria-associated deaths annually. Parasites resistant to nearly all antimalarials have emerged and the need for drugs with alternative modes of action is thus undoubted. The FK506-binding protein PfFKBP35 has gained attention as a...
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sg-ntu-dr.10356-1740442024-03-18T15:32:20Z Genetic validation of PfFKBP35 as an antimalarial drug target Thommen, Basil T. Dziekan, Jerzy Michal Achcar, Fiona Tjia, Seth Passecker, Armin Buczak, Katarzyna Gumpp, Christin Schmidt, Alexander Rottmann, Matthias Grüring, Christof Marti, Matthias Bozdech, Zbynek Brancucci, Nicolas MB School of Biological Sciences Medicine, Health and Life Sciences Malaria Drugs Plasmodium falciparum accounts for the majority of over 600,000 malaria-associated deaths annually. Parasites resistant to nearly all antimalarials have emerged and the need for drugs with alternative modes of action is thus undoubted. The FK506-binding protein PfFKBP35 has gained attention as a promising drug target due to its high affinity to the macrolide compound FK506 (tacrolimus). Whilst there is considerable interest in targeting PfFKBP35 with small molecules, a genetic validation of this factor as a drug target is missing and its function in parasite biology remains elusive. Here, we show that limiting PfFKBP35 levels are lethal to P. falciparum and result in a delayed death-like phenotype that is characterized by defective ribosome homeostasis and stalled protein synthesis. Our data furthermore suggest that FK506, unlike the action of this drug in model organisms, exerts its antiproliferative activity in a PfFKBP35-independent manner and, using cellular thermal shift assays, we identify putative FK506-targets beyond PfFKBP35. In addition to revealing first insights into the function of PfFKBP35, our results show that FKBP-binding drugs can adopt non-canonical modes of action – with major implications for the development of FK506-derived molecules active against Plasmodium parasites and other eukaryotic pathogens. Ministry of Education (MOE) Published version This work was supported by the Swiss National Science Foundation (grant number 310030_200683), the Wolfson Merit Royal Society Award, the Wellcome Trust Investigator Award 110166 and Wellcome Trust Center Award 104111, and the Singapore Ministry of Education (grant number MOE-T2EP30120-0015). 2024-03-12T08:01:01Z 2024-03-12T08:01:01Z 2023 Journal Article Thommen, B. T., Dziekan, J. M., Achcar, F., Tjia, S., Passecker, A., Buczak, K., Gumpp, C., Schmidt, A., Rottmann, M., Grüring, C., Marti, M., Bozdech, Z. & Brancucci, N. M. (2023). Genetic validation of PfFKBP35 as an antimalarial drug target. ELife, 12, RP86975-. https://dx.doi.org/10.7554/eLife.86975.4 2050-084X https://hdl.handle.net/10356/174044 10.7554/eLife.86975.4 12 RP86975 en MOE-T2EP30120-0015 eLife © 2023 Thommen et al. This article is distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use and redistribution provided that the original author and source are credited. application/pdf |
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Medicine, Health and Life Sciences Malaria Drugs Thommen, Basil T. Dziekan, Jerzy Michal Achcar, Fiona Tjia, Seth Passecker, Armin Buczak, Katarzyna Gumpp, Christin Schmidt, Alexander Rottmann, Matthias Grüring, Christof Marti, Matthias Bozdech, Zbynek Brancucci, Nicolas MB Genetic validation of PfFKBP35 as an antimalarial drug target |
| description |
Plasmodium falciparum accounts for the majority of over 600,000 malaria-associated
deaths annually. Parasites resistant to nearly all antimalarials have emerged and the need for drugs
with alternative modes of action is thus undoubted. The FK506-binding protein PfFKBP35 has
gained attention as a promising drug target due to its high affinity to the macrolide compound
FK506 (tacrolimus). Whilst there is considerable interest in targeting PfFKBP35 with small molecules,
a genetic validation of this factor as a drug target is missing and its function in parasite biology
remains elusive. Here, we show that limiting PfFKBP35 levels are lethal to P. falciparum and result in
a delayed death-like phenotype that is characterized by defective ribosome homeostasis and stalled
protein synthesis. Our data furthermore suggest that FK506, unlike the action of this drug in model
organisms, exerts its antiproliferative activity in a PfFKBP35-independent manner and, using cellular
thermal shift assays, we identify putative FK506-targets beyond PfFKBP35. In addition to revealing
first insights into the function of PfFKBP35, our results show that FKBP-binding drugs can adopt
non-canonical modes of action – with major implications for the development of FK506-derived
molecules active against Plasmodium parasites and other eukaryotic pathogens. |
| author2 |
School of Biological Sciences |
| author_facet |
School of Biological Sciences Thommen, Basil T. Dziekan, Jerzy Michal Achcar, Fiona Tjia, Seth Passecker, Armin Buczak, Katarzyna Gumpp, Christin Schmidt, Alexander Rottmann, Matthias Grüring, Christof Marti, Matthias Bozdech, Zbynek Brancucci, Nicolas MB |
| format |
Article |
| author |
Thommen, Basil T. Dziekan, Jerzy Michal Achcar, Fiona Tjia, Seth Passecker, Armin Buczak, Katarzyna Gumpp, Christin Schmidt, Alexander Rottmann, Matthias Grüring, Christof Marti, Matthias Bozdech, Zbynek Brancucci, Nicolas MB |
| author_sort |
Thommen, Basil T. |
| title |
Genetic validation of PfFKBP35 as an antimalarial drug target |
| title_short |
Genetic validation of PfFKBP35 as an antimalarial drug target |
| title_full |
Genetic validation of PfFKBP35 as an antimalarial drug target |
| title_fullStr |
Genetic validation of PfFKBP35 as an antimalarial drug target |
| title_full_unstemmed |
Genetic validation of PfFKBP35 as an antimalarial drug target |
| title_sort |
genetic validation of pffkbp35 as an antimalarial drug target |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/174044 |
| _version_ |
1794549316772167680 |