Plasmodium falciparum uses vitamin E to avoid oxidative stress

Sussmann, Rodrigo Antonio Ceschini; Fotoran, Wesley Luzetti; Kimura, Emı́lia A.; Katzin, Alejandro M.

doi:10.1186/s13071-017-2402-3

Cited by 32 publications

(33 citation statements)

References 53 publications

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“…Sussmann et al, 2017). In an experimental study of mice, oxidative stress reduced by 90% the survival of liver stages of the rodent malaria parasite Plasmodium berghei, reducing infection intensity in later stages of the parasite life cycle within the rodent host (Zuzarte-Luís et al, 2017).…”

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confidence: 99%

Neotropical migratory and resident birds occurring in sympatry during winter have distinct haemosporidian parasite assemblages

Soares

Latta²,

Ricklefs

2019

Journal of Biogeography

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Aim We compared the parasite assemblages of over‐wintering migratory birds and permanent residents on the wintering grounds. We determined whether parasite sharing between migratory and resident birds is influenced by host phylogenetic relatedness. We then inferred whether migratory birds transport haemosporidian parasite lineages between the breeding and wintering grounds. Location Sierra de Bahoruco National Park, Dominican Republic, Hispaniola. Taxa Migratory and resident birds (primarily Aves: Passeriformes) and their haemosporidian parasites (order Haemosporida, Plasmodium, Haemoproteus and Parahaemoproteus). Methods We used mist nets to capture birds in thorn scrub, broadleaf dry forests and pine forests during midwinter. We used molecular methods to recognize haemosporidian parasites in blood samples, and genotyped infections based on the nucleotide differences in a region of the parasite cytochrome b gene. Results and Main Conclusion We identified 505 infections by 32 haemosporidian parasite lineages in 1,780 blood samples from 37 resident species, and in 901 blood samples from 14 overwintering migratory species, over five years at the same sites. Infection prevalence varied among migratory species from zero to 13%, whereas infection prevalence among resident species ranged up to 77%. Host relatedness did not predict parasite assemblage similarity. We discuss four hypotheses for the rarity of haemosporidian infections in migratory birds during winter, and for the infrequency of parasite sharing between migratory and resident birds: (a) relative abundance and host preferences of dipteran vectors lower parasite transmission to migratory birds; (b) parasite lineages adapted to infect endemic Caribbean hosts are unable to infect migratory species; (c) the physiology of migratory birds after migration and during winter reduces parasite survival; and (d) infected individuals suffer more pronounced mortality rates during migration. We highlight the link between host–parasite coevolution and the physiological adaptations associated with avian seasonal migration.

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confidence: 99%

Neotropical migratory and resident birds occurring in sympatry during winter have distinct haemosporidian parasite assemblages

Soares

Latta²,

Ricklefs

2019

Journal of Biogeography

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“…The present study showed for the first time that the parasite L. amazonensis promastigotes biosynthesizes vitamin E. Although vitamin E biosynthesis is characteristic of photosynthetic eukaryotes , it was also demonstrated in P. falciparum . In L. amazonensis , using two different RP‐HPLC systems and the metabolic precursor [1‐ (n) ‐3H]‐phytol, two fractions with the same retention time as the α‐ and γ‐tocopherol standards were detected in the promastigotes.…”

Section: Discussionmentioning

confidence: 55%

“…Our results also indicate that this biosynthesis can be strongly inhibited by the HPPD irreversible enzyme‐binding inhibitor usnic acid and moderately by HPPD inhibitor nitisinone , possibly due to its reversible enzyme‐binding in most studied organisms . The 4‐hydroxyphenylpyruvate dioxygenase catalyses the conversion of p ‐hydroxyphenylpyruvic acid to homogentisic acid , a direct precursor of vitamin E and plastoquinone in most photosynthetic organisms except in cyanobacteria, where plastoquinone is thought to be biosynthesized by an alternative pathway .…”

Section: Discussionmentioning

confidence: 65%

Tocopherol biosynthesis in Leishmania (L.) amazonensis promastigotes

et al. 2019

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Leishmaniasis is a neglected disease caused by a trypanosomatid protozoan of the genus Leishmania. Most drugs used to treat leishmaniasis are highly toxic, and the emergence of drug‐resistant strains has been observed. Therefore, new therapeutic targets against leishmaniasis are required. Several isoprenoid compounds, including dolichols or ubiquinones, have been shown to be important for cell viability and proliferation in various trypanosomatid species. Here, we detected the biosynthesis of tocopherol in Leishmania (L.) amazonensis promastigotes in vitro through metabolic labelling with [1‐(n)‐3H]‐phytol. Subsequently, we confirmed the presence of vitamin E in the parasite by gas chromatography–mass spectrometry. Treatment with usnic acid or nitisinone, inhibitors of precursors of vitamin E synthesis, inhibited growth of the parasite in a concentration‐dependent manner. This study provides the first evidence of tocopherol biosynthesis in a trypanosomatid and suggests that inhibitors of the enzyme 4‐hydroxyphenylpyruvate dioxygenase may be suitable for use as antileishmanial compounds. Database The amino acid sequence of a conserved hypothetical protein [Leishmania mexicana MHOM/GT/2001/U1103] has been deposited in GenBank ()

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“…It was demonstrated that the vitamin K2 biosynthesized by the parasite acts as electron transporter in the respiratory chain in microaerophilic conditions and that this biosynthesis can be inhibited treating parasite culture with RO 48-8071, a specific inhibitor of manequinone-4 biosynthesis [24]. The biosynthesis of tocopherol (vitamin E) was characterized in the parasite and has been shown essential for antioxidant that protects against environmental stress, including maintaining ROS levels [46]. The parasite lives in a pro-oxidant environment that contains oxygen and iron and therefore have evolved extensive detoxifying and protective mechanisms, which both limit the production of and potential damage by ROS [27,46].…”

Section: Isoprenoids In Plasmodium Sppmentioning

confidence: 99%

Terpenes as Potential Antimalarial Drugs

Gabriel¹,

Sussmann²,

Kimura³

et al. 2018

Terpenes and Terpenoids

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A fact which favors the increase in morbidity and mortality of malaria cases in the world is the resistance to chemotherapeutic agents that the parasite presents. Therefore, it is necessary to identify new potential targets specific to the parasite in order to be able to perform a rational planning. One target for the evaluation of potential antimalarial compounds is isoprenoid synthesis, which occurs via the 2-C-methyl-d-erythritol-4-phosphate pathway in Plasmodium falciparum. Several intermediaries and final products of this pathway were identified in the parasite and lead us to the conclusion that it is different from the vertebrate host. In this chapter, we describe the effect of some monoterpenes and sesquiterpenes on Plasmodium falciparum and Plasmodium berghei as potential antimalarial drugs.

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Plasmodium falciparum uses vitamin E to avoid oxidative stress

Cited by 32 publications

References 53 publications

Neotropical migratory and resident birds occurring in sympatry during winter have distinct haemosporidian parasite assemblages

Neotropical migratory and resident birds occurring in sympatry during winter have distinct haemosporidian parasite assemblages

Tocopherol biosynthesis in Leishmania (L.) amazonensis promastigotes

Terpenes as Potential Antimalarial Drugs

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