PLoS ONE (Jan 2014)

Glycoengineering of interferon-β 1a improves its biophysical and pharmacokinetic properties.

  • Kyoung Song,
  • In-Soo Yoon,
  • Nam Ah Kim,
  • Dong-Hwan Kim,
  • Jongmin Lee,
  • Hee Jung Lee,
  • Saehyung Lee,
  • Sunghyun Choi,
  • Min-Koo Choi,
  • Ha Hyung Kim,
  • Seong Hoon Jeong,
  • Woo Sung Son,
  • Dae-Duk Kim,
  • Young Kee Shin

DOI
https://doi.org/10.1371/journal.pone.0096967
Journal volume & issue
Vol. 9, no. 5
p. e96967

Abstract

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The purpose of this study was to develop a biobetter version of recombinant human interferon-β 1a (rhIFN-β 1a) to improve its biophysical properties, such as aggregation, production and stability, and pharmacokinetic properties without jeopardizing its activity. To achieve this, we introduced additional glycosylation into rhIFN-β 1a via site-directed mutagenesis. Glycoengineering of rhIFN-β 1a resulted in a new molecular entity, termed R27T, which was defined as a rhIFN-β mutein with two N-glycosylation sites at 80th (original site) and at an additional 25th amino acid due to a mutation of Thr for Arg at position 27th of rhIFN-β 1a. Glycoengineering had no effect on rhIFN-β ligand-receptor binding, as no loss of specific activity was observed. R27T showed improved stability and had a reduced propensity for aggregation and an increased half-life. Therefore, hyperglycosylated rhIFN-β could be a biobetter version of rhIFN-β 1a with a potential for use as a drug against multiple sclerosis.