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Bioscience, Biotechnology, and Biochemistry Volume 76, 2012 - Issue 3
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Original Articles

Introducing Site-Specific Glycosylation Using Protein Engineering Techniques Reduces the Immunogenicity of β-Lactoglobulin

Yoshiyuki TATSUMIDepartment of Applied Biological Science, Tokyo University of Agriculture and Technology
,
Yoshimasa SASAHARADepartment of Applied Biological Science, Tokyo University of Agriculture and Technology
,
Noriki KOHYAMADepartment of Applied Biological Science, Tokyo University of Agriculture and Technology
,
Satomi AYANODepartment of Applied Biological Science, Tokyo University of Agriculture and Technology
,
Michio ENDODepartment of Applied Biological Science, Tokyo University of Agriculture and Technology
,
Tadashi YOSHIDADepartment of Applied Biological Science, Tokyo University of Agriculture and Technology
,
Kiyoshi YAMADADepartment of Applied Biological Chemistry, The University of Tokyo
,
Mamoru TOTSUKADepartment of Applied Biological Chemistry, The University of Tokyo
&
Makoto HATTORIDepartment of Applied Biological Science, Tokyo University of Agriculture and Technology
 show all
Pages 478-485 | Received 11 Oct 2011, Accepted 24 Nov 2011, Published online: 22 May 2014
 
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Abstract

To reduce the immunogenicity of β-lactoglobulin (BLG), we prepared wild-type bovine BLG variant A (wt) and three site-specifically glycosylated BLGs (D28N, D137N/A139S, and P153A), and expressed them in the methylotrophic yeast Pichia pastoris by fusion of the cDNA to the sequence coding for the α-factor signal peptide from Saccharomyces cerevisiae. Sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS–PAGE) analysis indicated that the glycosylated BLGs were conjugated with a ∼4 kDa high-mannose chain. Each glycosylated BLG retained ∼80% of the retinol-binding activity of BLG. Structural analyses by intrinsic fluorescence, CD spectra, and ELISA with monoclonal antibodies indicated that the surface structure was slightly changed by using protein engineering techniques, but that the site-specifically glycosylated BLGs were covered by high-mannose chains without substantial disruption of wt conformation. Antibody responses to the glycosylated BLGs tended to be weaker in BALB/c, C57BL/6, and C3H/He mice. We conclude that site-specific glycosylation is an effective method to reduce the immunogenicity of BLG, and that masking of epitopes by high-mannose chains is effective to reduce immunogenicity.

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Related Research Data

MILK ALLERGY1
Source: International Association for Food Protection
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