Sialic acid: a sweet swing between mammalian host and Trypanosoma cruzi

Freire-de-Lima, Leonardo; Oliveira, Isadora A.; Neves, Jorge Luiz; Penha, Luciana; Alisson-Silva, Frederico; Dias, Wagner B.; Todeschini, Adriane R.

doi:10.3389/fimmu.2012.00356

Cited by 34 publications

(28 citation statements)

References 112 publications

(148 reference statements)

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“…Many Gram-negative bacteria mask their alien identity by decorating their outer layer with various forms of a linear monosaccharide that is also found on the surface of most animal cells: sialic acid (SA). By adding this nine-carbon sugar acid to the outermost end of certain glycolipids that coat the bacterial surface, the pathogen can primarily derail the activation of the host's most primitive immune response: the complement system (Hood et al, 1999;Harvey et al, 2001;Severi et al, 2007;Johnston et al, 2008;Freire-de-Lima et al, 2012).…”

Section: Introductionmentioning

confidence: 99%

Bacterial periplasmic sialic acid-binding proteins exhibit a conserved binding site

Setty

Cho

Govindappa

et al. 2014

Acta Cryst D Biol Crystallogr

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Section: Introductionmentioning

confidence: 99%

Bacterial periplasmic sialic acid-binding proteins exhibit a conserved binding site

Setty

Cho

Govindappa

et al. 2014

Acta Cryst D Biol Crystallogr

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“…The T. cruzi trans-sialidase transfers host sialic acid to parasite surface glycoconjugates, a process that supports host–cell recognition, infectivity, and parasite survival. Indeed, this trans-sialidase activity can remodel parasite glycomolecules, altering host immune responses against the parasite and playing a role as a virulence factor (Freire-de-Lima et al, 2012 ).…”

Section: Trans-kingdom Transfer Of Extracellular Vesiclesmentioning

confidence: 99%

Role of Small RNAs in Trypanosomatid Infections

Linhares-Lacerda

Morrot

2016

Front. Microbiol.

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Trypanosomatid parasites survive and replicate in the host by using mechanisms that aim to establish a successful infection and ensure parasite survival. Evidence points to microRNAs as new players in the host-parasite interplay. MicroRNAs are small non-coding RNAs that control proteins levels via post-transcriptional gene down-regulation, either within the cells where they were produced or in other cells via intercellular transfer. These microRNAs can be modulated in host cells during infection and are among the growing group of small regulatory RNAs, for which many classes have been described, including the transfer RNA-derived small RNAs. Parasites can either manipulate microRNAs to evade host-driven damage and/or transfer small RNAs to host cells. In this mini-review, we present evidence for the involvement of small RNAs, such as microRNAs, in trypanosomatid infections which lack RNA interference. We highlight both microRNA profile alterations in host cells during those infections and the horizontal transfer of small RNAs and proteins from parasites to the host by membrane-derived extracellular vesicles in a cell communication mechanism.

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“…This interaction causes the neutrophil to recognize the bacteria as 'self' which dampens the neutrophil reactivity [12]. Molecular mimicry of host glycans is also known in Trypanosoma cruzi, which utilizes host sialic acid transferred to the terminus of mucin-like O-glycan on the surface of the parasite [13,14]. Further, molecular mimicry has been identified as one of the mechanisms by which infections can initiate or exacerbate autoimmune diseases [15].…”

Section: Introductionmentioning

confidence: 99%

Alpha-Gal and Cross-Reactive Carbohydrate Determinants in the N-Glycans of Salivary Glands in the Lone Star Tick, Amblyomma americanum

et al. 2020

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Ticks are important ectoparasites and vectors of numerous human and animal pathogens. Ticks secrete saliva that contains various bioactive materials to evade the host defense system, and often facilitates the pathogen transmission. In addition, the Lone star tick saliva is thought to be the sensitizer in red meat allergy that is characterized by an allergic reaction to glycan moieties carrying terminal galactose-alpha-1,3-galactose (aGal). To assess N-glycome of Amblyomma americanum, we examined the N-glycan structures in male and female salivary glands at three different feeding stages and in carcasses of partially fed lone star ticks. We also surveyed the genes involved in the N-glycosylation in the tick species. The aGal epitopes and cross-reactive carbohydrate determinants (CCD) increases over time after the onset of blood feeding in both male and female A. americanum. These CCDs include xylosylation of the core mannose, 1,3-mono and 1,3- and 1,6-difucosylations of the basal GlcNac and mono- or diantennary aGal. Combinations of both xylosylation and aGal and fucosylation and aGal were also found on the N-glycan structures. While the enzymes required for the early steps of the N-glycosylation pathway are quite conserved, the enzymes involved in the later stages of N-glycan maturation in the Golgi apparatus are highly diverged from those of insects. Most of all, we propose that the aGal serves as a molecular mimicry of bioactive proteins during tick feedings on mammalian hosts, while it contributes as a sensitizer of allergy in atypical host human.

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Sialic acid: a sweet swing between mammalian host and Trypanosoma cruzi

Cited by 34 publications

References 112 publications

Bacterial periplasmic sialic acid-binding proteins exhibit a conserved binding site

Bacterial periplasmic sialic acid-binding proteins exhibit a conserved binding site

Role of Small RNAs in Trypanosomatid Infections

Alpha-Gal and Cross-Reactive Carbohydrate Determinants in the N-Glycans of Salivary Glands in the Lone Star Tick, Amblyomma americanum

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