N. Rao Thotakura scite author profile

The presence and specific structures of the oligosaccharides on TSH have been shown to be important for its production and bioactivity. Since the carbohydrate structure of a protein reflects the glycosylation apparatus of the host cells in which the protein is expressed, we examined the biological activity and metabolic clearance of a preparation of purified recombinant human (rh) TSH derived from a stable transfectant of Chinese hamster ovary cells. Carbohydrate compositional analysis of this rTSH showed it to be more highly sialylated than a nonrecombinant, cadaver-derived pituitary hTSH. In addition, no N-acetyl galactosamine was detectable in rhTSH, which implies the absence of terminal sulfate moieties, both of which are present in pituitary-derived TSH. The immunologic activity and porcine TSH receptor-binding activity of the preparation of rhTSH were 3- to 4-fold lower than those of a standard pituitary hTSH. The rhTSH showed a maximum stimulatory activity similar to that of pituitary hTSH in two different in vitro bioassays. However, rhTSH elicited about 3-fold and 5-fold less cAMP than pituitary TSH after stimulation of adenylyl cyclase in bovine thyroid membranes and the rat FRTL-5 cell line, respectively. Removal of sialic acid did not alter the immunologic activity of rhTSH. However, the potencies of rhTSH in receptor-binding, adenylyl cyclase, and FRTL-5 assays were increased 2.4-, 2.6- and 26.7-fold, respectively after sialic acid removal. These data suggest that the in vitro biological activity of rhTSH is influenced by its highly sialylated oligosaccharide chains. The rhTSH had a 2-fold lower metabolic clearance rate than pituitary TSH, resulting in a greater than 10-fold higher serum concentration of rhTSH at 3 h as compared to pituitary hTSH. After sialic acid removal, the rhTSH was cleared faster (7.5-fold) than pituitary hTSH, showing that its longer plasma half-life was due to its higher sialylation. Biologically active rhTSH should be of clinical value in the diagnosis and treatment of patients with thyroid cancer and as a pure hTSH reference preparation.

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Human insulin-like growth factor binding protein-6 is O-glycosylated

Bach

Thotakura

Rechler

1992

Biochemical and Biophysical Research Communications

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Expression of Human Thyrotropin in Cell Lines with Different Glycosylation Patterns Combined with Mutagenesis of Specific Glycosylation Sites

Grossmann

Szkudlinski

Tropea

et al. 1995

Journal of Biological Chemistry

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We used a novel approach to study the role of the Asn-linked oligosaccharides for human thyrotropin (hTSH) activity. Mutagenesis of Asn (N) within individual glycosylation recognition sequences to Gln (Q) was combined with expression of wild type and mutant hTSH in cell lines with different glycosylation patterns. The in vitro activity of hTSH lacking the Asn alpha 52 oligosaccharide (alpha Q52/TSH beta) expressed in CHO-K1 cells (sialylated oligosaccharides) was increased 6-fold compared with wild type, whereas the activities of alpha Q78/TSH beta and alpha/TSH beta Q23 were increased 2-3-fold. Deletion of the Asn alpha 52 oligosaccharide also increased the thyrotropic activity of human chorionic gonadotropin, in contrast to previous findings at its native receptor. The in vitro activity of wild type hTSH expressed in CHO-LEC2 cells (sialic acid-deficient oligosaccharides), CHO-LEC1 cells (Man5GlcNAc2 intermediates), and 293 cells (sulfated oligosaccharides) was 5-8-fold higher than of wild type from CHO-K1 cells. In contrast to CHO-K1 cells, there was no difference in the activity between wild type and selectively deglycosylated mutants expressed in these cell lines. Thus, in hTSH, the oligosaccharide at Asn alpha 52 and, specifically, its terminal sialic acid residues attenuate in vitro activity, in contrast to the previously reported stimulatory role of this chain for human chorionic gonadotropin and human follitropin activity. The increased thyrotropic activity of alpha Q52/CG beta suggests that receptor-related mechanisms may be responsible for these differences among the glycoprotein hormones. Despite their increased in vitro activity, alpha Q52/TSH beta, and alpha Q78/TSH beta from CHO-K1 cells had a faster serum disappearance rate and decreased effect on T4 production in mice. These findings highlight the importance of individual oligosaccharides in maintaining circulatory half-life and hence in vivo activity of hTSH.

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N. Rao Thotakura

Biological Activity and Metabolic Clearance of a Recombinant Human Thyrotropin Produced in Chinese Hamster Ovary Cells

Human insulin-like growth factor binding protein-6 is O-glycosylated

Expression of Human Thyrotropin in Cell Lines with Different Glycosylation Patterns Combined with Mutagenesis of Specific Glycosylation Sites

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