Scientific Reports (May 2019)

Rational design of a hypoallergenic Phl p 7 variant for immunotherapy of polcalcin-sensitized patients

  • Marianne Raith,
  • Doris Zach,
  • Linda Sonnleitner,
  • Konrad Woroszylo,
  • Margarete Focke-Tejkl,
  • Herbert Wank,
  • Thorsten Graf,
  • Annette Kuehn,
  • Mariona Pascal,
  • Rosa Maria Muñoz-Cano,
  • Judith Wortmann,
  • Philipp Aschauer,
  • Walter Keller,
  • Simone Braeuer,
  • Walter Goessler,
  • Ines Swoboda

DOI
https://doi.org/10.1038/s41598-019-44208-0
Journal volume & issue
Vol. 9, no. 1
pp. 1 – 10

Abstract

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Abstract Polcalcins are important respiratory panallergens, whose IgE-binding capacity depends on the presence of calcium. Since specific immunotherapy is not yet available for the treatment of polcalcin-sensitized patients, we aimed to develop a molecule for efficient and safe immunotherapy. We generated a hypoallergenic variant of the grass pollen polcalcin Phl p 7 by introducing specific point mutations into the allergen’s calcium-binding regions. We thereby followed a mutation strategy that had previously resulted in a hypoallergenic mutant of a calcium-binding food allergen, the major fish allergen parvalbumin. Dot blot assays performed with sera from Phl p 7-sensitized patients showed a drastically reduced IgE reactivity of the Phl p 7 mutant in comparison to wildtype Phl p 7, and basophil activation assays indicated a significantly reduced allergenic activity. Rabbit IgG directed against mutant rPhl p 7 blocked patients’ IgE binding to wildtype Phl p 7, indicating the mutant’s potential applicability for immunotherapy. Mass spectrometry and circular dichroism experiments showed that the mutant had lost the calcium-binding capacity, but still represented a folded protein. In silico analyses revealed that the hypoallergenicity might be due to fewer negative charges on the molecule’s surface and an increased molecular flexibility. We thus generated a hypoallergenic Phl p 7 variant that could be used for immunotherapy of polcalcin-sensitized individuals.