Positional dynamics and glycosomal recruitment of developmental regulators during trypanosome differentiation

Szöőr, Balázs; Simon, Dorina V; Rojas, Federico; Young, Julie; Robinson, Derrick R.; Krüger, Timothy; Engstler, Markus; Matthews, Keith R.

doi:10.1101/603258

Cited by 2 publications

(2 citation statements)

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“…We have discussed several topics related to the biogenesis and morphological, structural, and metabolic properties of glycosomes and open questions related to these topics (summarized in Figure 5). Several other aspects of glycosomes, each one also with open questions, have not been addressed here and readers are referred to other papers: (i) the role of glycosomes in life cycle differentiation (Szöőr et al, 2014, 2019); (ii) the regulation of glycosomal metabolism within the overall metabolic network of the cell (Michels et al, 2021); (iii) variations in glycosomal content and metabolism during the trypanosome's life cycle and between different species (Michels et al, 2021); (iv) the uniqueness of glycosomes — the presence of glycolytic enzymes in peroxisomes outside the lineages of kinetoplastids and diplonemids (Freitag et al, 2012).…”

Section: Discussionmentioning

confidence: 99%

Biogenesis and metabolic homeostasis of trypanosomatid glycosomes: New insights and new questions

Michels

Gualdrón‐López

2022

J Eukaryotic Microbiology

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Kinetoplastea and Diplonemea possess peroxisome‐related organelles that, uniquely, contain most of the enzymes of the glycolytic pathway and are hence called glycosomes. Enzymes of several other core metabolic pathways have also been located in glycosomes, in addition to some characteristic peroxisomal systems such as pathways of lipid metabolism. A considerable amount of research has been performed on glycosomes of trypanosomes since their discovery four decades ago. Not only the role of the glycosomal enzyme systems in the overall cell metabolism appeared to be unique, but also the organelles display remarkable features regarding their biogenesis and structural properties. These features are similar to those of the well‐studied peroxisomes of mammalian and plant cells and yeasts yet exhibit also differences reflecting the large evolutionary distance between these protists and the representatives of other major eukaryotic lineages. Despite all research performed, many questions remain about various properties and the biological roles of glycosomes and peroxisomes. Here, we review the current knowledge about glycosomes, often comparing it with information about peroxisomes. Furthermore, we highlight particularly many questions that remain about the biogenesis, and the heterogeneity in structure and content of these enigmatic organelles, and the properties of their boundary membrane.

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Section: Discussionmentioning

confidence: 99%

Biogenesis and metabolic homeostasis of trypanosomatid glycosomes: New insights and new questions

Michels

Gualdrón‐López

2022

J Eukaryotic Microbiology

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“…Enzymes of other metabolic pathways, such as the pentose phosphate pathway and beta-oxidation of fatty acids, have also been shown to localise to the glycosomes [225] (Table 3) and TrypTag is likely to provide new insights into glycosome biochemistry [126]. Moreover, glycosomes facilitate the trypanosome stumpy-procyclic differentiation pathway by sequestering negative regulators of differentiation from their substrates [226].…”

Section: Glycosomesmentioning

confidence: 99%

Basic Biology of Trypanosoma brucei with Reference to the Development of Chemotherapies

Dean

2021

CPD

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: Trypanosoma brucei are protozoan parasites that causes the lethal human disease African sleeping sickness, and the economically devastating disease of cattle, Nagana. African sleeping sickness, or Human African Trypanosomiasis (HAT) threatens 65 million people, and animal trypanosomiasis makes large areas of farmland unusable. There is no vaccine and licenced therapies against the most severe, late-stage disease are toxic, impractical and ineffective. Trypanosomes are transmitted by tsetse flies and HAT is therefore predominantly confined to the tsetse fly belt in subSaharan African. They are exclusively extracellular, and they differentiate between at least seven developmental forms that are highly adapted to host and vector niches. In the mammalian (human) host they inhabit the blood, cerebrospinal fluid (late stage disease), skin and adipose fat. In the tsetse fly vector, they travel from the tsetse midgut to the salivary glands via the ectoperitrophic space and proventriculus. Trypanosomes are evolutionarily divergent compared with most branches of eukaryotic life. Perhaps most famous for their extraordinary mechanisms of monoallelic gene expression and antigenic variation, they have also been investigated because much of their biology is either highly unconventional or extreme. Moreover, in addition to their importance as pathogens, many researchers have been attracted to the field because trypanosomes have some of the most advanced molecular genetic tools and database resources of any model system. The following will cover just some aspects of trypanosome biology and how its divergent biochemistry has been leveraged to develop drugs to treat African Sleeping sickness. It is by no means intended to be a comprehensive survey of trypanosome features. Rather, it is hoped that it will present trypanosomes as one of the most fascinating and tractable systems in which to do discovery biology.

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Positional dynamics and glycosomal recruitment of developmental regulators during trypanosome differentiation

Cited by 2 publications

References 43 publications

Biogenesis and metabolic homeostasis of trypanosomatid glycosomes: New insights and new questions

Biogenesis and metabolic homeostasis of trypanosomatid glycosomes: New insights and new questions

Basic Biology of Trypanosoma brucei with Reference to the Development of Chemotherapies

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