PLoS ONE (Jan 2011)

Mannosidase 2, alpha 1 deficiency is associated with ricin resistance in embryonic stem (ES) cells.

  • Wei Wang,
  • Christine Hale,
  • Dave Goulding,
  • Stuart M Haslam,
  • Bérangère Tissot,
  • Christopher Lindsay,
  • Stephen Michell,
  • Rick Titball,
  • Jun Yu,
  • Ana Luisa Toribio,
  • Raffaella Rossi,
  • Anne Dell,
  • Allan Bradley,
  • Gordon Dougan

DOI
https://doi.org/10.1371/journal.pone.0022993
Journal volume & issue
Vol. 6, no. 8
p. e22993

Abstract

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Host gene products required for mediating the action of toxins are potential targets for reversing or controlling their pathogenic impact following exposure. To identify such targets libraries of insertional gene-trap mutations generated with a PiggyBac transposon in Blm-deficient embryonic stem cells were exposed to the plant toxin, ricin. Resistant clones were isolated and genetically characterised and one was found to be a homozygous mutant of the mannosidase 2, alpha 1 (Man2α1) locus with a matching defect in the homologous allele. The causality of the molecular lesion was confirmed by removal of the transposon following expression of PB-transposase. Comparative glycomic and lectin binding analysis of the Man2α1 (-/-) ricin resistant cells revealed an increase in the levels of hybrid glycan structures and a reduction in terminal β-galactose moieties, potential target receptors for ricin. Furthermore, naïve ES cells treated with inhibitors of the N-linked glycosylation pathway at the mannosidase 2, alpha 1 step exhibited either full or partial resistance to ricin. Therefore, we conclusively identified mannosidase 2, alpha 1 deficiency to be associated with ricin resistance.