Decay of the glycolytic pathway and adaptation to intranuclear parasitism within Enterocytozoonidae microsporidia
10.1111/1462-2920.13734
Crossref journal-article
Wiley
Environmental Microbiology (311)
Abstract

SummaryGlycolysis and oxidative phosphorylation are the fundamental pathways of ATP generation in eukaryotes. Yet in microsporidia, endoparasitic fungi living at the limits of cellular streamlining, oxidative phosphorylation has been lost: energy is obtained directly from the host or, during the dispersive spore stage, via glycolysis. It was therefore surprising when the first sequenced genome from the Enterocytozoonidae – a major family of human and animal‐infecting microsporidians – appeared to have lost genes for glycolysis. Here, we sequence and analyse genomes from additional members of this family, shedding new light on their unusual biology. Our survey includes the genome of Enterocytozoon hepatopenaei, a major aquacultural parasite currently causing substantial economic losses in shrimp farming, and Enterospora canceri, a pathogen that lives exclusively inside epithelial cell nuclei of its crab host. Our analysis of gene content across the clade suggests that Ent. canceri's adaptation to intranuclear life is underpinned by the expansion of transporter families. We demonstrate that this entire lineage of pathogens has lost glycolysis and, uniquely amongst eukaryotes, lacks any obvious intrinsic means of generating energy. Our study provides an important resource for the investigation of host‐pathogen interactions and reductive evolution in one of the most medically and economically important microsporidian lineages.

Bibliography

Wiredu Boakye, D., Jaroenlak, P., Prachumwat, A., Williams, T. A., Bateman, K. S., Itsathitphaisarn, O., Sritunyalucksana, K., Paszkiewicz, K. H., Moore, K. A., Stentiford, G. D., & Williams, B. A. P. (2017). Decay of the glycolytic pathway and adaptation to intranuclear parasitism within Enterocytozoonidae microsporidia. Environmental Microbiology, 19(5), 2077–2089. Portico.

Authors 11
  1. Dominic Wiredu Boakye (first)
  2. Pattana Jaroenlak (additional)
  3. Anuphap Prachumwat (additional)
  4. Tom A. Williams (additional)
  5. Kelly S. Bateman (additional)
  6. Ornchuma Itsathitphaisarn (additional)
  7. Kallaya Sritunyalucksana (additional)
  8. Konrad H. Paszkiewicz (additional)
  9. Karen A. Moore (additional)
  10. Grant D. Stentiford (additional)
  11. Bryony A. P. Williams (additional)
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Dates
Type When
Created 8 years, 5 months ago (March 26, 2017, 11:26 p.m.)
Deposited 1 year, 11 months ago (Sept. 11, 2023, 8:42 p.m.)
Indexed 5 days, 8 hours ago (Aug. 31, 2025, 7:27 p.m.)
Issued 8 years, 4 months ago (April 12, 2017)
Published 8 years, 4 months ago (April 12, 2017)
Published Online 8 years, 4 months ago (April 12, 2017)
Published Print 8 years, 4 months ago (May 1, 2017)
Funders 3
  1. Royal Society 10.13039/501100000288

    Region: Europe

    pri (Associations and societies (private and public))

    Labels1
    1. The Royal Society
    Awards1
    1. University Research Fellowships
  2. Agricultural Research Development Agency 10.13039/501100005076

    Region: Asia

    pri (Other non-profit organizations)

    Labels1
    1. ARDA
    Awards1
    1. 8669
  3. Mahidol University 10.13039/501100004156

    Region: Asia

    gov (Universities (academic only))

    Labels3
    1. โรงศิริราชพยาบาล
    2. มหาวิทยาลัยมหิดล
    3. MU

@article{Wiredu_Boakye_2017, title={Decay of the glycolytic pathway and adaptation to intranuclear parasitism within Enterocytozoonidae microsporidia}, volume={19}, ISSN={1462-2920}, url={http://dx.doi.org/10.1111/1462-2920.13734}, DOI={10.1111/1462-2920.13734}, number={5}, journal={Environmental Microbiology}, publisher={Wiley}, author={Wiredu Boakye, Dominic and Jaroenlak, Pattana and Prachumwat, Anuphap and Williams, Tom A. and Bateman, Kelly S. and Itsathitphaisarn, Ornchuma and Sritunyalucksana, Kallaya and Paszkiewicz, Konrad H. and Moore, Karen A. and Stentiford, Grant D. and Williams, Bryony A. P.}, year={2017}, month=apr, pages={2077–2089} }