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7. Metabolism of FAD, FMN and riboflavin (vitamin B2) in the human parasitic blood fluke Schistosoma mansoni.

Author

Da'dara, Akram A., Nation, Catherine S., and Skelly, Patrick J.

Subjects
SCHISTOSOMA mansoni, VITAMIN B2, FLAVIN adenine dinucleotide, FLAVIN mononucleotide, METABOLISM
Abstract

Background: Schistosomiasis is a parasitic disease caused by trematodes of the genus Schistosoma. The intravascular worms acquire the nutrients necessary for their survival from host blood. Since all animals are auxotrophic for riboflavin (vitamin B2), schistosomes too must import it to survive. Riboflavin is an essential component of the coenzymes flavin mononucleotide (FMN) and flavin adenine dinucleotide (FAD); these support key functions of dozens of flavoenzymes. Methods: Here, using a combination of metabolomics, enzyme kinetics and in silico molecular analysis, we focus on the biochemistry of riboflavin and its metabolites in Schistosoma mansoni (Sm). Results: We show that when schistosomes are incubated in murine plasma, levels of FAD decrease over time while levels of FMN increase. We show that live schistosomes cleave exogenous FAD to generate FMN and this ability is significantly blocked when expression of the surface nucleotide pyrophosphatase/phosphodiesterase ectoenzyme SmNPP5 is suppressed using RNAi. Recombinant SmNPP5 cleaves FAD with a Km of 178 ± 5.9 µM and Kcat/Km of 324,734 ± 36,347 M− 1.S− 1. The FAD-dependent enzyme IL-4I1 drives the oxidative deamination of phenylalanine to produce phenylpyruvate and H2O2. Since schistosomes are damaged by H2O2, we determined if SmNPP5 could impede H2O2 production by blocking IL-4I1 action in vitro. We found that this was not the case; covalently bound FAD on IL-4I1 appears inaccessible to SmNPP5. We also report that live schistosomes can cleave exogenous FMN to generate riboflavin and this ability is significantly impeded when expression of a second surface ectoenzyme (alkaline phosphatase, SmAP) is suppressed. Recombinant SmAP cleaves FMN with a Km of 3.82 ± 0.58 mM and Kcat/Km of 1393 ± 347 M− 1.S− 1. Conclusions: The sequential hydrolysis of FAD by tegumental ecto-enzymes SmNPP5 and SmAP can generate free vitamin B2 around the worms from where it can be conveniently imported by the recently described schistosome riboflavin transporter SmaRT. Finally, we identified in silico schistosome homologs of enzymes that are involved in intracellular vitamin B2 metabolism. These are riboflavin kinase (SmRFK) as well as FAD synthase (SmFADS); cDNAs encoding these two enzymes were cloned and sequenced. SmRFK is predicted to convert riboflavin to FMN while SmFADS could further act on FMN to regenerate FAD in order to facilitate robust vitamin B2-dependent metabolism in schistosomes. [ABSTRACT FROM AUTHOR]

Published
2024
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9. Schistosoma mansoni phosphoglycerate mutase: a glycolytic ectoenzyme with thrombolytic potential

Author

Pirovich David B., Da’dara Akram A., and Skelly Patrick J.

Subjects
schistosomiasis, tegument, pgm, moonlighting function, thrombolysis, glycolytic enzyme, Infectious and parasitic diseases, RC109-216
Abstract

Schistosomiasis is a debilitating parasitic disease caused by intravascular flatworms called schistosomes (blood flukes) that affects >200 million people worldwide. Proteomic analysis has revealed the surprising presence of classical glycolytic enzymes – typically cytosolic proteins – located on the extracellular surface of the parasite tegument (skin). Immunolocalization experiments show that phosphoglycerate mutase (PGM) is widely expressed in parasite tissues and is highly expressed in the tegument. We demonstrate that live Schistosoma mansoni parasites express enzymatically active PGM on their tegumental surface. Suppression of PGM using RNA interference (RNAi) diminishes S. mansoni PGM (SmPGM) gene expression, protein levels, and surface enzyme activity. Sequence comparisons place SmPGM in the cofactor (2,3-bisphosphoglycerate)-dependent PGM (dPGM) family. We have produced recombinant SmPGM (rSmPGM) in an enzymatically active form in Escherichia coli. The Michaelis-Menten constant (Km) of rSmPGM for its glycolytic substrate (3-phosphoglycerate) is 0.85 mM ± 0.02. rSmPGM activity is inhibited by the dPGM-specific inhibitor vanadate. Here, we show that rSmPGM not only binds to plasminogen but also promotes its conversion to an active form (plasmin) in vitro. This supports the hypothesis that host-interactive tegumental proteins (such as SmPGM), by enhancing plasmin formation, may help degrade blood clots around the worms in the vascular microenvironment and thus promote parasite survival in vivo.

Published
2022
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43. Schistosoma mansoni glyceraldehyde-3-phosphate dehydrogenase enhances formation of the blood-clot lysis protein plasmin

Author

Pirovich, David B., Da'dara, Akram A., and Skelly, Patrick J.

Subjects
QH301-705.5, Plasmin, Science, 030231 tropical medicine, Dehydrogenase, Tissue plasminogen activator, General Biochemistry, Genetics and Molecular Biology, law.invention, 03 medical and health sciences, 0302 clinical medicine, law, parasitic diseases, medicine, Biology (General), Glyceraldehyde 3-phosphate dehydrogenase, 030304 developmental biology, chemistry.chemical_classification, 0303 health sciences, biology, GAPDH, biology.organism_classification, Thrombolysis, Moonlighting function, 3. Good health, Cell biology, Enzyme, chemistry, Schistosome, Tegument, biology.protein, Recombinant DNA, GAPDH Gene, Schistosoma mansoni, General Agricultural and Biological Sciences, Research Article, medicine.drug
Abstract

Schistosomes are intravascular blood flukes that cause the parasitic disease schistosomiasis. In agreement with Schistosoma mansoni (Sm) proteomic analysis, we show here that the normally intracellular glycolytic enzyme glyceraldehyde-3-phosphate dehydrogenase (GAPDH) is also found at the parasite surface; live worms from all intravascular life stages display GAPDH activity. Suppressing GAPDH gene expression using RNA interference significantly lowers this live worm surface activity. Medium in which the worms are cultured overnight displays essentially no activity, showing that the enzyme is not shed or excreted but remains associated with the worm surface. Immunolocalization experiments confirm that the enzyme is highly expressed in the parasite tegument (skin). Surface activity in schistosomula amounts to ∼8% of that displayed by equivalent parasite lysates. To address the functional role of SmGAPDH, we purified the protein following its expression in Escherichia coli strain DS113. The recombinant protein displays optimal enzymatic activity at pH 9.2, shows robust activity at the temperature of the parasite's hosts, and has a Michaelis–Menten constant for glyceraldehyde-3-phosphate (GAP) of 1.4 mM±0.24. We show that recombinant SmGAPDH binds plasminogen (PLMG) and promotes PLMG conversion to its active form (plasmin) in a dose response in the presence of tissue plasminogen activator. Since plasmin is a key mediator of thrombolysis, our results support the hypothesis that SmGAPDH, a host-interactive tegumental protein that can enhance PLMG activation, could help degrade blood clots around the worms in the vascular microenvironment and thus promote parasite survival in vivo. This article has an associated First Person interview with the first author of the paper., Summary: This work provides evidence of a novel function for a blood fluke's glycolytic enzyme (GAPDH) activating plasmin to potentially degrade blood clots, thus aiding parasite survival in the host vasculature.

Published
2020
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44. Sex and the single schistosome: once thought to pair for life, infective flatworms may lose their mates in battle

Author

Skelly, Patrick J.

Subjects
Helminths -- Research -- Sexual behavior, Platyhelminthes -- Research -- Sexual behavior, Worms, Intestinal and parasitic -- Research -- Sexual behavior, Anthropology/archeology/folklore, Biological sciences, Earth sciences, Science and technology, Zoology and wildlife conservation
Abstract

CALL ME NAIVE, BUT I WAS A LITTLE surprised that the trip to the ancient temple of the pharaohs in Luxor, Egypt, did not require a couple of days' ride [...]

Published
2008

45. Amino-acid transport by heterodimers of 4F2hc/CD98 and members of a permease family

Author

Mastroberadino, Luca, Spindler, Benjamin, Pfeiffer, Rahel, Skelly, Patrick J., Loffing, Jan, Shoemaker, Charles B., and Verrey, Francois

Subjects
Amino acids -- Research, Cells -- Permeability, Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

Amino-acid transport through cellular plasma membranes relies on parallel-functioning (co-)transporters and exchangers. The L system accounts for a sodium-independent exchange of neutral amino acids, and y+L system exchanges positively charged amino acids. The permease-related protein E16 has been identified as the first light chain of h4F2hc, and the resulting heterodimeric complex is found to mediate L-type amino-acid transport.

Published
1998

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