Chemo-enzymatic synthesis and structure-activity study of artificially N-glycosylated eel calcitonin derivatives with a complex type oligosaccharide

Starting from N-glycosylated eel calcitonin derivatives that contain an N-acetyl-D-glucosamine residue specifically at the 3rd, 14th, 20th or 26th amino acid residue, corresponding glycopeptides with a complex-type oligosaccharide attached to the respective amino acid residue were synthesized by mea...

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Bibliographic Details
Published in:Glycoconjugate journal 2004-01, Vol.21 (6), p.377-386
Main Authors: Haneda, Katsuji, Tagashira, Mizuka, Yoshino, Eiichi, Takeuchi, Midori, Inazu, Toshiyuki, Toma, Kazunori, Iijima, Hideki, Isogai, Yukihiro, Hori, Masayuki, Takamatsu, Shinji, Fujibayashi, Yasuhisa, Kobayashi, Kazuo, Takeuchi, Makoto, Yamamoto, Kenji
Format: Article
Language:English
Subjects:
Animals
Calcitonin - chemical synthesis
Calcitonin - chemistry
Calcitonin - metabolism
Carbohydrate Sequence
Carbohydrates
Circular Dichroism
Derivatives
Glycosylation
Male
Molecular Sequence Data
Mucor hiemalis
Oligosaccharides - chemistry
Peptides
Rats
Rats, Sprague-Dawley
Structure-Activity Relationship
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Summary:Starting from N-glycosylated eel calcitonin derivatives that contain an N-acetyl-D-glucosamine residue specifically at the 3rd, 14th, 20th or 26th amino acid residue, corresponding glycopeptides with a complex-type oligosaccharide attached to the respective amino acid residue were synthesized by means of a transglycosylation reaction catalyzed by an endo-beta-N-acetylglucosaminidase from Mucor hiemalis . The use of a recombinant enzyme and an excess of a glycosyl donor led to a yield in excess of 60%. Calcitonin derivatives containing truncated oligosaccharides were also prepared via digestion of the complex-type N-glycan with exoglycosidases. Using these N-glycosylated calcitonin derivatives, the effect of carbohydrate structure and glycosylation site on the three-dimensional structure and the biological activity of the peptide were studied. The conformation of the peptide backbone did not change irrespective of the carbohydrate structure or the glycosylation site. However, hypocalcemic activity, calcitonin-receptor binding activity and the biodistribution of the derivatives were affected by the glycosylation and were dependent on both the carbohydrate structure and the glycosylation site. Although the larger oligosaccharides tended to hinder receptor binding, the biodistribution altered by N-glycosylation appeared to enhance the hypocalcemic activity in some cases, and the magnitude of the effect was dependent on the site of glycosylation.
ISSN:0282-0080
1573-4986
DOI:10.1023/B:GLYC.0000046277.92806.74