OBJECTIVE 1
Question 1: How does Monocercomonoides assemble FeS clusters?
We have established that oxymonads and Paratrimastix use for the synthesis of FeS clusters the SUF pathway consisting of SufB, SufC and the fusion protein SufDSU, and the CIA pathway consisting of Nbp35, Nar1, Cia1 Cia 2A and Cia2B proteins, all cytosolic. SUF pathway proteins show all important motifs and residues, perform most important activities, bind necessary cofactors and rescue the growth and/or FeS cluster synthesis in Escherichia coli. All three Suf proteins form in vitro a SufDSUBC complex which probably represents the functional unit in vivo (Fig. 2). This complex probably interacts with Nbp35 and Cia1 proteins of the CIA pathway.
Question 2: What are the major biochemical pathways in the amitochondriate cell?
We planned to solve this question by metabolomics analysis of the axenic culture. As we failed to prepare it, we focused on the processes in the microbial community in which M. exilis grows. This could not provide many details about the metabolism of the amitochondriate cell itself, but we learned that it expresses a wide array of lysozymes and glycosyl hydrolases useful for grazing on bacteria. On the other hand, we uncovered the structure and major metabolic processes in the whole community. It consists of at least 30 species of bacteria (Fig. 6), depending on the external source of organic carbon, which is oxidated and fermented leading to the production of hydrogen which is oxidised to water. Nitrogen compounds are recycled via nitrite ammonification and iron reduction dominates over oxidation.
OBJECTIVE 2
Question 3: Are there other amitochondriate lineages besides oxymonads?
Two other investigated oxymonads are amitochondriate. The mitochondrion-related organelle of the closest relative to oxymonads (Paratrimastix pyriformis) is essential only for the production of one-carbon units. We have investigated the presence of mitochondria in seven other protist species (Retortamonas and Archamoebae) living in low-oxygen environments and detected and characterised mitochondria in all of them (Fig. 4). We have characterised the structure and metabolism of two symbiotic consortia – amoeba Pelomyxa schiedtii with three prokaryotic endosymbionts, oxymonad Streblomastix strix with a dozen of prokaryotic ectosymbionts (Fig. 7).
Question 4: Can we induce the loss of mitosome in the laboratory?
Despite considerable effort, we have failed to prepare a mitochondrial knockout of E. histolytica.
Question 5: What happens to mitochondrion-targeted proteins when the mitochondrion disappears?
Because we failed in Objective 3 and Question 4, we had no experimental system to study what happens to mitochondrial proteins soon after the organelle is lost. To compensate at least partially, we chose a bioinformatics strategy to reveal the long-term fate of mitochondrial proteins in amitochondriate oxymonads. We conclude that no extant oxymonad protein was re-targeted from the mitochondrion into another compartment, and they were all lost after the organelle disappeared.
Question 6: How does the cell proteome react to the emergence of mitochondrial compartment?
We showed that at least 14 proteins from M. exilis cytosol are imported into hydrogenosomes of Trichomonas vaginalis if co-incubated (Fig. 4). We speculate that this mimics the situation when the import into the early mitochondrion was evolving and supports the hypothesis that the mistargeting of a small fraction of proteins from the host cell contributed to the emerging mitochondria.
OBJECTIVE 3: OXYMONADS AS A MODEL AMITOCHONDRIATE CELL LINE
We failed to axenise the culture and we did not succeed with the genetic engineering of the cells.
DISSEMINATION OF THE RESULTS
The results were disseminated via conference contributions, theses and publications. The team members defended nine theses and 22x participated in conferences where they presented the results of the project. Finally, the results were published in 13 open-access publications in impacted journals and two preprints currently under review.