Thiamine (Vitamin B1) metabolism in schistosomes.
- 2026-06
- Biochimie 245
- PubMed: 41825753
- DOI: 10.1016/j.biochi.2026.03.002
Study Design
- Population
- adult Schistosoma mansoni parasites
- Methods
- RNAi suppression of SmAP gene, measurement of thiamine metabolite cleavage
- Funding
- Unclear
Schistosomes are intravascular parasitic flatworms that acquire all nutrients necessary for their survival from blood. Here we focus on how the parasites acquire and metabolize an essential nutrient - vitamin B1 (thiamine). Live adult male and female Schistosoma mansoni parasites cleave exogenous thiamine monophosphate (ThMP) and thiamine pyrophosphate (ThPP) to generate free thiamine. Of the three characterized nucleotide-metabolizing ectoenzymes expressed at the schistosome surface (SmAP, SmNPP5, and SmATPDase1), only SmAP hydrolyzes these metabolites. Parasites whose SmAP gene is suppressed by RNAi are significantly impaired in their ability to cleave ThMP, but not ThPP, compared to controls. We conclude therefore that while SmAP can cleave ThMP alone, additional (uncharacterized) ectoenzyme(s) also cleave ThPP. When schistosomes are incubated in murine plasma, levels of both thiamine and phosphate increase over time, a finding consistent with these data. Generating a pool of free thiamine around the worms should permit the convenient uptake of this vital metabolite. However, we were unable to identify homologs in schistosomes of thiamine transporter proteins described in other systems. Instead, a ThPP transporter homolog was identified in silico (SmThPPT). Additionally, a schistosome mitochondrial ThPP transporter homolog is described that likely moves some imported ThPP from the cytoplasm into worm mitochondria. Finally, we report on a thiamine pyrophosphokinase homolog (SmTPK) that could pyrophosphorylate thiamine to make ThPP. Free thiamine generated outside the worms, if not imported (and since it is anti-inflammatory), could act in an immunomodulatory capacity to help generate a more benign external environment for the worms in the bloodstream.
Research Insights
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