Proteomic characterization of Toxoplasma gondii ME49 derived strains resistant to the artemisinin derivatives artemiside and artemisone implies potential mode of action independent of ROS formation.

Müller, Joachim; Schlange, Carling; Heller, Manfred; Uldry, Anne-Christine; Braga-Lagache, Sophie; Haynes, Richard K; Hemphill, Andrew (2023). Proteomic characterization of Toxoplasma gondii ME49 derived strains resistant to the artemisinin derivatives artemiside and artemisone implies potential mode of action independent of ROS formation. International journal for parasitology. Drugs and drug resistance, 21, pp. 1-12. Elsevier 10.1016/j.ijpddr.2022.11.005

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The sesquiterpene lactone artemisinin and its amino-artemisinin derivatives artemiside (GC008) and artemisone (GC003) are potent antimalarials. The mode of action of artemisinins against Plasmodium sp is popularly ascribed to 'activation' of the peroxide group by heme-Fe(II) or labile Fe(II) to generate C-radicals that alkylate parasite proteins. An alternative postulate is that artemisinins elicit formation of reactive oxygen species by interfering with flavin disulfide reductases resposible for maintaining intraparasitic redox homeostasis. However, in contradistinction to the heme-activation mechanism, the amino-artemisinins are effective in vitro against non-heme-degrading apicomplexan parasites including T. gondii, with IC 50 values of 50-70 nM, and induce distinct ultrastructural alterations. However, T. gondii strains readily adapted to increased concentrations (2.5 μM) of these two compounds within few days. Thus, T. gondii strains that were resistant against artemisone and artemiside were generated by treating the T. gondii reference strain ME49 with stepwise increasing amounts of these compounds, yielding the artemisone resistant strain GC003R and the artemiside resistant strain GC008R. Differential analyses of the proteomes of these resistant strains compared to the wildtype ME49 revealed that 215 proteins were significantly downregulated in artemisone resistant tachyzoites and only 8 proteins in artemiside resistant tachyzoites as compared to their wildtype. Two proteins, namely a hypothetical protein encoded by ORF TGME49_236950, and the rhoptry neck protein RON2 encoded by ORF TGME49_300100 were downregulated in both resistant strains. Interestingly, eight proteins involved in ROS scavenging including catalase and superoxide dismutase were amongst the differentially downregulated proteins in the artemisone-resistant strain. In parallel, ROS formation was significantly enhanced in isolated tachyzoites from the artemisone resistant strain and - to a lesser extent - in tachyzoites from the artemiside resistant strain as compared to wildtype tachyzoites. These findings suggest that amino-artemisinin derivatives display a mechanism of action in T. gondii distinct from Plasmodium.

Item Type:

Journal Article (Original Article)

Division/Institute:

09 Interdisciplinary Units > Microscopy Imaging Center (MIC)
05 Veterinary Medicine > Department of Infectious Diseases and Pathobiology (DIP) > Institute of Parasitology
05 Veterinary Medicine > Department of Infectious Diseases and Pathobiology (DIP)
04 Faculty of Medicine > Pre-clinic Human Medicine > BioMedical Research (DBMR) > DCR Services > Core Facility Massenspektrometrie- und Proteomics-Labor

UniBE Contributor:

Müller, Heinz Joachim, Schlange, Carling Louisa, Heller, Manfred, Uldry, Anne-Christine, Braga, Sophie Marie-Pierre, Hemphill, Andrew

Subjects:

600 Technology > 630 Agriculture
600 Technology > 610 Medicine & health

ISSN:

2211-3207

Publisher:

Elsevier

Language:

English

Submitter:

Pubmed Import

Date Deposited:

19 Dec 2022 13:26

Last Modified:

20 Sep 2024 08:41

Publisher DOI:

10.1016/j.ijpddr.2022.11.005

PubMed ID:

36512904

Uncontrolled Keywords:

Apicomplexan parasites Drug resistance Mass spectrometry Model organism Reactive oxygen species Untargeted proteomics

BORIS DOI:

10.48350/175938

URI:

https://boris.unibe.ch/id/eprint/175938

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