N-glycan patterns of human transferrin produced in Trichoplusia ni insect cells: effects of mammalian galactosyltransferase

doi:10.1093/glycob/10.8.837

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Glycobiology, 2000, Vol. 10, No. 8 837-847
© 2000 Oxford University Press

N-glycan patterns of human transferrin produced in Trichoplusia ni insect cells: effects of mammalian galactosyltransferase

Eric Ailor, Noriko Takahashi², Yoshinori Tsukamoto², Katsuyoshi Masuda³, Badarulhisam Abdul Rahman⁵, Donald L. Jarvis⁴, Yuan Chuan Lee⁵ and Michael J. Betenbaugh¹

Department of Chemical Engineering, The Johns Hopkins University, Baltimore, MD 21218, USA, ²GlycoLab, Central Research Institute, Nakano Vinegar Co. Ltd., 2–6 Nakamura-cho, Handa-City Aichi 475–8585, Japan, ³Suntory Institute for Bioorganic Research, Wakayama-dai, Shimamoto-cho, Mishima-gun, Osaka 618, Japan, the ⁴Department of Microbiology, University of Wyoming, Laramie, WY 82071, USA, and ⁵Department of Biology, The Johns Hopkins University, Baltimore, MD 21218, USA

The N-glycans of human serum transferrin produced in Trichopulsiani cells were analyzed to examine N-linked oligosaccharide processingin insect cells. Metabolic radiolabeling of the intra- and extracellularprotein fractions revealed the presence of multiple transferringlycoforms with molecular weights lower than that observed fornative human transferrin. Consequently, the N-glycan structuresof transferrin in the culture medium were determined using three-dimensionalhigh performance liquid chromatography. The attached oligosaccharidesincluded high mannose, paucimannosidic, and hybrid structureswith over 50% of these structures containing one fucose, ${alpha}$ (1,6)-,or two fucoses, ${alpha}$ (1,6)- and ${alpha}$ (1,3)-, linked to the Asn-linkedN-acetylglucosamine. Neither sialic acid nor galactose was detectedon any of the N-glycans. However, when transferrin was coexpressedwith ß(1,4)-galactosyltransferase three additional galactose-containinghybrid oligosaccharides were obtained. The galactose attachmentswere exclusive to the ${alpha}$ (1,3)-mannose branch and the structuresvaried by the presence of zero, one, or two attached fucoseresidues. Furthermore, the presence of the galactosyltransferaseappeared to reduce the number of paucimannosidic structures,which suggests that galactose attachment inhibits the abilityof hexosaminidase activity to remove the terminal N-acetylglucosamine.The ability to promote galactosylation and reduce paucimannosidicN-glycans suggests that the oligosaccharide processing pathwayin insect cells may be manipulated to mimic more closely thatof mammalian cells.

¹ To whom correspondence should be addressed

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