Microbial Cell Factories (Oct 2017)

Soluble polymorphic bank vole prion proteins induced by co-expression of quiescin sulfhydryl oxidase in E. coli and their aggregation behaviors

  • Romany Abskharon,
  • Johnny Dang,
  • Ameer Elfarash,
  • Zerui Wang,
  • Pingping Shen,
  • Lewis S. Zou,
  • Sedky Hassan,
  • Fei Wang,
  • Hisashi Fujioka,
  • Jan Steyaert,
  • Mentor Mulaj,
  • Witold K. Surewicz,
  • Joaquín Castilla,
  • Alexandre Wohlkonig,
  • Wen-Quan Zou

DOI
https://doi.org/10.1186/s12934-017-0782-x
Journal volume & issue
Vol. 16, no. 1
pp. 1 – 11

Abstract

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Abstract Background The infectious prion protein (PrPSc or prion) is derived from its cellular form (PrPC) through a conformational transition in animal and human prion diseases. Studies have shown that the interspecies conversion of PrPC to PrPSc is largely swayed by species barriers, which is mainly deciphered by the sequence and conformation of the proteins among species. However, the bank vole PrPC (BVPrP) is highly susceptible to PrPSc from different species. Transgenic mice expressing BVPrP with the polymorphic isoleucine (109I) but methionine (109M) at residue 109 spontaneously develop prion disease. Results To explore the mechanism underlying the unique susceptibility and convertibility, we generated soluble BVPrP by co-expression of BVPrP with Quiescin sulfhydryl oxidase (QSOX) in Escherichia coli. Interestingly, rBVPrP-109M and rBVPrP-109I exhibited distinct seeded aggregation pathways and aggregate morphologies upon seeding of mouse recombinant PrP fibrils, as monitored by thioflavin T fluorescence and electron microscopy. Moreover, they displayed different aggregation behaviors induced by seeding of hamster and mouse prion strains under real-time quaking-induced conversion. Conclusions Our results suggest that QSOX facilitates the formation of soluble prion protein and provide further evidence that the polymorphism at residue 109 of QSOX-induced BVPrP may be a determinant in mediating its distinct convertibility and susceptibility.

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