<i>Wolbachia pipientis</i> grows in <i>Saccharomyces cerevisiae</i> evoking early death of the host and deregulation of mitochondrial metabolism

Uribe‐Alvarez, Cristina; Chiquete-Félix, Natalia; Morales-García, Lilia; Bohórquez-Hernández, Arlette; Delgado-Buenrostro, Norma L.; Vaca, Luis; Peña, Antonio; Uribe‐Carvajal, Salvador

doi:10.1002/mbo3.675

Cited by 10 publications

(6 citation statements)

References 92 publications

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“…As might be expected, we found universally high purifying selection on housekeeping activities such as ribonucleotide binding, DNA topoisomerase type II, and DNA topological change, but early-branching Wolbachia also showed enhanced purifying selection for energy and respiration-related activities including ATP binding, NADH dehydrogenase activity, quinone binding, and respirasome activity. These conserved respiration functions may relate to host mitochondria- Wolbachia interaction homeostasis, which has been shown as critical to maintenance in host cells – and disruption of oxidative phosphorylation leading to host cell death in alternate hosts ( Uribe-Alvarez et al, 2019 ). Among w Tex and w Ppe, there appeared to be the highest purifying selection on metabolic functions associated with energy, and metal ion, iron-sulfur cluster, heme binding, which again point to oxygenic-mitochondrial and heme synthesis processes and mitochondria- Wolbachia interaction and homeostasis as key functions specifically conserved in PPN Wolbachia .…”

Section: Discussionmentioning

confidence: 99%

Discovery of Early-Branching Wolbachia Reveals Functional Enrichment on Horizontally Transferred Genes

2022

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Wolbachia is a widespread endosymbiont of insects and filarial nematodes that profoundly influences host biology. Wolbachia has also been reported in rhizosphere hosts, where its diversity and function remain poorly characterized. The discovery that plant-parasitic nematodes (PPNs) host Wolbachia strains with unknown roles is of interest evolutionarily, ecologically, and for agriculture as a potential target for developing new biological controls. The goal of this study was to screen communities for PPN endosymbionts and analyze genes and genomic patterns that might indicate their role. Genome assemblies revealed 1 out of 16 sampled sites had nematode communities hosting a Wolbachia strain, designated wTex, that has highly diverged as one of the early supergroup L strains. Genome features, gene repertoires, and absence of known genes for cytoplasmic incompatibility, riboflavin, biotin, and other biosynthetic functions placed wTex between mutualist C + D strains and reproductive parasite A + B strains. Functional terms enriched in group L included protoporphyrinogen IX, thiamine, lysine, fatty acid, and cellular amino acid biosynthesis, while dN/dS analysis suggested the strongest purifying selection on arginine and lysine metabolism, and vitamin B6, heme, and zinc ion binding, suggesting these as candidate roles in PPN Wolbachia. Higher dN/dS pathways between group L, wPni from aphids, wFol from springtails, and wCfeT from cat fleas suggested distinct functional changes characterizing these early Wolbachia host transitions. PPN Wolbachia had several putative horizontally transferred genes, including a lysine biosynthesis operon like that of the mitochondrial symbiont Midichloria, a spirochete-like thiamine synthesis operon shared only with wCfeT, an ATP/ADP carrier important in Rickettsia, and a eukaryote-like gene that may mediate plant systemic acquired resistance through the lysine-to-pipecolic acid system. The Discovery of group L-like variants from global rhizosphere databases suggests diverse PPN Wolbachia strains remain to be discovered. These findings support the hypothesis of plant-specialization as key to shaping early Wolbachia evolution and present new functional hypotheses, demonstrating promise for future genomics-based rhizosphere screens.

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Section: Discussionmentioning

confidence: 99%

Discovery of Early-Branching Wolbachia Reveals Functional Enrichment on Horizontally Transferred Genes

2022

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“…Therefore, in order to prevent the possibility of the αPATPsζ gene being present but skipped or missed in our bioinformatics search in Rickettsiales, we confirmed biochemically that the ζ subunit is totally absent in one species of these Rickettsiales. We isolated the F 1 -ATPase from Wolbachia pipientis (WpF 1 ), grown as an intracellular symbiotic host in human erythrocytes; since the latter lack mitochondria, this ensured the absence of putative contaminant mitochondrial F-ATPase (mtF-ATPase) present, for instance, in yeast that was used before as the W. pipientis host ( Uribe-Alvarez et al, 2019 ). As expected, from the absence of the αPATPsζ gene in W. pipientis , we found by WpF 1 purification and anti-ζ Western blot that Wp-ζ is totally absent in the WpF 1 -ATPase ( Figure 10C ), where we confirmed the presence of the α, β, γ, and ε subunits ( Figures 10A, B ).…”

Section: Resultsmentioning

confidence: 99%

Inhibitory to non-inhibitory evolution of the ζ subunit of the F1FO-ATPase of Paracoccus denitrificans and α-proteobacteria as related to mitochondrial endosymbiosis

Mendoza-Hoffmann,

Yang,

Buratto

et al. 2023

Front. Mol. Biosci.

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Introduction: The ζ subunit is a potent inhibitor of the F1FO-ATPase of Paracoccus denitrificans (PdF1FO-ATPase) and related α-proteobacteria different from the other two canonical inhibitors of bacterial (ε) and mitochondrial (IF1) F1FO-ATPases. ζ mimics mitochondrial IF1 in its inhibitory N-terminus, blocking the PdF1FO-ATPase activity as a unidirectional pawl-ratchet and allowing the PdF1FO-ATP synthase turnover. ζ is essential for the respiratory growth of P. denitrificans, as we showed by a Δζ knockout. Given the vital role of ζ in the physiology of P. denitrificans, here, we assessed the evolution of ζ across the α-proteobacteria class.Methods: Through bioinformatic, biochemical, molecular biology, functional, and structural analyses of several ζ subunits, we confirmed the conservation of the inhibitory N-terminus of ζ and its divergence toward its C-terminus. We reconstituted homologously or heterologously the recombinant ζ subunits from several α-proteobacteria into the respective F-ATPases, including free-living photosynthetic, facultative symbiont, and intracellular facultative or obligate parasitic α-proteobacteria.Results and discussion: The results show that ζ evolved, preserving its inhibitory function in free-living α-proteobacteria exposed to broad environmental changes that could compromise the cellular ATP pools. However, the ζ inhibitory function was diminished or lost in some symbiotic α-proteobacteria where ζ is non-essential given the possible exchange of nutrients and ATP from hosts. Accordingly, the ζ gene is absent in some strictly parasitic pathogenic Rickettsiales, which may obtain ATP from the parasitized hosts. We also resolved the NMR structure of the ζ subunit of Sinorhizobium meliloti (Sm-ζ) and compared it with its structure modeled in AlphaFold. We found a transition from a compact ordered non-inhibitory conformation into an extended α-helical inhibitory N-terminus conformation, thus explaining why the Sm-ζ cannot exert homologous inhibition. However, it is still able to inhibit the PdF1FO-ATPase heterologously. Together with the loss of the inhibitory function of α-proteobacterial ε, the data confirm that the primary inhibitory function of the α-proteobacterial F1FO-ATPase was transferred from ε to ζ and that ζ, ε, and IF1 evolved by convergent evolution. Some key evolutionary implications on the endosymbiotic origin of mitochondria, as most likely derived from α-proteobacteria, are also discussed.

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“…Similar effects likely arise in Drosophila as well, since different strains of Wolbachia either increase or decrease the flies' locomotor activity (Hague et al, 2021), which necessarily implies variations in their metabolic rate. There are few studies suggesting that Wolbachia could interact with its host's aerobic metabolism, either by supplementing or hijacking it (Darby et al, 2012; Uribe‐Alvarez et al, 2019). Such sub‐cellular effects of facultative endosymbionts need to be investigated in other symbiotic associations, such as H. defensa and R. insecticola with aphids.…”

Section: Discussionmentioning

confidence: 99%

Physiological costs of facultative endosymbionts in aphids assessed from energy metabolism

et al. 2022

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1. Many insect species harbour heritable bacterial endosymbionts. Some facultative endosymbionts provide benefits to their hosts under certain environmental conditions.2. Facultative endosymbionts are expected to impose additional energetic expenditures to their host, reducing host fitness. While there is accumulating evidence in plant sucking insects that facultative endosymbionts reduce the fitness of their host under permissive conditions, no direct energy costs associated with facultative endosymbionts have been identified.3. Using the standard metabolic rate (SMR) as a measure of the energy cost of selfmaintenance, we investigated whether two common facultative endosymbionts Hamiltonella defensa or Regiella insecticola increase the maintenance cost of the pea aphid Acyrthosiphon pisum which could translate into host fitness reduction ('compensation hypothesis'). In addition, we tested if there was a link between SMR and the aphid fitness and whether it depended on endosymbiont density and aphid energetic reserves. Finally, we measured SMR at different temperatures to assess the impact of suboptimal thermal conditions on physiological cost of endosymbionts.4. In the presence of facultative endosymbionts, aphids expressed generally a lower fitness and a higher SMR compared to uninfected ones, in accordance with the 'compensation hypothesis'. However, the SMR difference between infected and uninfected aphids tended to decrease with increasing temperature. Complex host genotype-by-symbiont genotype-by-temperature interactions on SMR were also revealed.5. Energetic budget of adult aphids appeared weakly influenced by the aphid genotype and endosymbiont species, suggesting that facultative endosymbionts primarily impact the consumption of energy resources rather than their acquisition. Density of facultative endosymbionts varied largely among aphid lines but was not associated with the fitness nor metabolic rate of aphids.

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Wolbachia pipientis grows in Saccharomyces cerevisiae evoking early death of the host and deregulation of mitochondrial metabolism

Cited by 10 publications

References 92 publications

Discovery of Early-Branching Wolbachia Reveals Functional Enrichment on Horizontally Transferred Genes

Discovery of Early-Branching Wolbachia Reveals Functional Enrichment on Horizontally Transferred Genes

Inhibitory to non-inhibitory evolution of the ζ subunit of the F1FO-ATPase of Paracoccus denitrificans and α-proteobacteria as related to mitochondrial endosymbiosis

Physiological costs of facultative endosymbionts in aphids assessed from energy metabolism

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