Recent advances in trypanosomatid research: genome organization, expression, metabolism, taxonomy and evolution

Maslov, Dmitri; Opperdoes, Frederik; Kostygov, Alexei Y.; Hashimi, Hassan; Lukeš, Julius; Yurchenko, Vyacheslav

doi:10.1017/s0031182018000951

Cited by 123 publications

(115 citation statements)

References 468 publications

(580 reference statements)

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“…Orthologues were identified in species of the Trypanosoma genus, T. rangeli (79% of sequence identity) and T. brucei (50%), in the Leishmania genus (48%), in monoxenous trypanosomatids (47%) and in the free-living Bodo saltans (32%). The phylogenetic relationships inferred from the tree based on Tc964-orthologues fit well with current taxonomy of kinetoplastids [33]. However, by BLAST searches at NCBI, no clear orthologues were found in organisms other than kinetoplastids.…”

supporting

confidence: 61%

Molecular Characterization of Tc964, A Novel Antigenic Protein from Trypanosoma cruzi

Ruiz-Márvez

Ramírez

Rodríguez

et al. 2020

IJMS

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The Tc964 protein was initially identified by its presence in the interactome associated with the LYT1 mRNAs, which code for a virulence factor of Trypanosoma cruzi. Tc964 is annotated in the T. cruzi genome as a hypothetical protein. According to phylogenetic analysis, the protein is conserved in the different genera of the Trypanosomatidae family; however, recognizable orthologues were not identified in other groups of organisms. Therefore, as a first step, an in-depth molecular characterization of the Tc946 protein was carried out. Based on structural predictions and molecular dynamics studies, the Tc964 protein would belong to a particular class of GTPases. Subcellular fractionation analysis indicated that Tc964 is a nucleocytoplasmic protein. Additionally, the protein was expressed as a recombinant protein in order to analyze its antigenicity with sera from Chagas disease (CD) patients. Tc964 was found to be antigenic, and B-cell epitopes were mapped by the use of synthetic peptides. In parallel, the Leishmania major homologue (Lm964) was also expressed as recombinant protein and used for a preliminary evaluation of antigen cross-reactivity in CD patients. Interestingly, Tc964 was recognized by sera from Chronic CD (CCD) patients at different stages of disease severity, but no reactivity against this protein was observed when sera from Colombian patients with cutaneous leishmaniasis were analyzed. Therefore, Tc964 would be adequate for CD diagnosis in areas where both infections (CD and leishmaniasis) coexist, even though additional assays using larger collections of sera are needed in order to confirm its usefulness for differential serodiagnosis.

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supporting

confidence: 61%

Molecular Characterization of Tc964, A Novel Antigenic Protein from Trypanosoma cruzi

Ruiz-Márvez

Ramírez

Rodríguez

et al. 2020

IJMS

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“…The most commonly studied ones are the procyclic stage (PCF) in the insect’s midgut and the bloodstream stage (BSF) in the mammalian host . When transferred from one host to another and during the interstage transitions between different host tissues and compartments, the parasite is exposed to a plethora of oxidative stresses .…”

Section: Introductionmentioning

confidence: 99%

“…via blood feeding [1]. To prosper in both the insect vector and and compartments, the parasite is exposed to a plethora of oxidative stresses [4,5].…”

Section: Introductionmentioning

confidence: 99%

Catalase compromises the development of the insect and mammalian stages of Trypanosoma brucei

et al. 2019

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Catalase is a widespread heme‐containing enzyme, which converts hydrogen peroxide (H2O2) to water and molecular oxygen, thereby protecting cells from the toxic effects of H2O2. Trypanosoma brucei is an aerobic protist, which conspicuously lacks this potent enzyme, present in virtually all organisms exposed to oxidative stress. To uncover the reasons for its absence in T. brucei, we overexpressed different catalases in procyclic and bloodstream stages of the parasite. The heterologous enzymes originated from the related insect‐confined trypanosomatid Crithidia fasciculata and the human. While the trypanosomatid enzyme (cCAT) operates at low temperatures, its human homolog (hCAT) is adapted to the warm‐blooded environment. Despite the presence of peroxisomal targeting signal in hCAT, both human and C. fasciculata catalases localized to the cytosol of T. brucei. Even though cCAT was efficiently expressed in both life cycle stages, the enzyme was active in the procyclic stage, increasing cell's resistance to the H2O2 stress, yet its activity was suppressed in the cultured bloodstream stage. Surprisingly, following the expression of hCAT, the ability to establish the T. brucei infection in the tsetse fly midgut was compromised. In the mouse model, hCAT attenuated parasitemia and, consequently, increased the host's survival. Hence, we suggest that the activity of catalase in T. brucei is beneficial in vitro, yet it becomes detrimental for parasite's proliferation in both invertebrate and vertebrate hosts, leading to an inability to carry this, otherwise omnipresent, enzyme.

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“…The diversity of monoxenous trypanosomatids has been previously studied using mainly two different molecular markers-18S rRNA and SL RNA [5], for which the datasets overlap only partially. Therefore, we decided to use both of them in order to better understand the phylogenetic affinities of B. raabei.…”

Section: Molecular Phylogenetic Analysesmentioning

confidence: 99%

“…Although insect-restricted (monoxenous) trypanosomatids do not have such a strong impact, studying them is as important because these species serve as models for the abovementioned pathogens and because of many peculiarities, inherent to the whole family: polycistronic transcription and trans-splicing of nuclear protein-encoding genes, complex organization of kinetoplast DNA, RNA editing, etc. [5]. In the last few years monoxenous species started attracting even more attention owing to the ability of some flagellates to survive in humans [6][7][8][9][10][11], negative effect on economically important insects [12,13] and symbiotic relationships with intracellular bacteria [14][15][16][17][18].…”

Section: Introductionmentioning

confidence: 99%

If host is refractory, insistent parasite goes berserk: Trypanosomatid Blastocrithidia raabei in the dock bug Coreus marginatus

et al. 2020

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Here we characterized the development of the trypanosomatid Blastocrithidia raabei in the dock bug Coreus marginatus using light and electron microscopy. This parasite has been previously reported to occur in the host hemolymph, which is rather typical for dixenous trypanosomatids transmitted to a plant or vertebrate with insect's saliva. In addition, C. marginatus has an unusual organization of the intestine, which makes it refractory to microbial infections: two impassable segments isolate the anterior midgut portion responsible for digestion and absorption from the posterior one containing symbiotic bacteria. Our results refuted the possibility of hemolymph infection, but revealed that the refractory nature of the host provokes very aggressive behavior of the parasite and makes its life cycle more complex, reminiscent of that in some dixenous trypanosomatids. In the pre-barrier midgut portion, the epimastigotes of B. raabei attach to the epithelium and multiply similarly to regular insect trypanosomatids. However, when facing the impassable constricted region, the parasites rampage and either fiercely break through the isolating segments or attack the intestinal epithelium in front of the barrier. The cells of the latter group pass to the basal lamina and accumulate there, causing degradation of the epitheliocytes and thus helping the epimastigotes of the former group to advance posteriorly. In the symbiont-containing post-barrier midgut segment, the parasites either attach to bacterial cells and produce cyst-like amastigotes (CLAs) or infect enterocytes. In the rectum, all epimastigotes attach either to the cuticular lining or to each other and form CLAs. We argue that in addition to the specialized life cycle B. raabei possesses functional cell enhancements important either for the successful passage through the intestinal barriers (enlarged rostrum and well-developed Golgi complex) or as food reserves (vacuoles in the posterior end).

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Recent advances in trypanosomatid research: genome organization, expression, metabolism, taxonomy and evolution

Cited by 123 publications

References 468 publications

Molecular Characterization of Tc964, A Novel Antigenic Protein from Trypanosoma cruzi

Molecular Characterization of Tc964, A Novel Antigenic Protein from Trypanosoma cruzi

Catalase compromises the development of the insect and mammalian stages of Trypanosoma brucei

If host is refractory, insistent parasite goes berserk: Trypanosomatid Blastocrithidia raabei in the dock bug Coreus marginatus

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