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Endocrinology, Vol 136, 3325-3330, Copyright © 1995 by Endocrine Society
ARTICLES |
MW Szkudlinski, NR Thotakura, JE Tropea, M Grossmann and BD Weintraub
Molecular and Cellular Endocrinology Branch, National Institute of Diabetes and Digestive and Kidney Diseases, National Institutes of Health, Bethesda, Maryland 20892, USA.
The recombinant human TSH (rhTSH) with highly sialylated oligosaccharide chains showed higher in vivo bioactivity and a lower MCR than the predominantly sulfated pituitary human TSH (phTSH). The aim of the present study was to investigate the role of terminal carbohydrate residues in organ distribution and metabolic clearance of TSH using an in vivo rat model. The different 125I-labeled TSH preparations with distinct carbohydrate composition were injected i.v. At various time points (5-180 min) after bolus TSH injection, blood, liver, kidney, spleen, lung, heart, and thyroid samples were collected. TSH uptake was determined by trichloroacetic acid precipitation of [125I]TSH in the organ homogenates. The rhTSH (solely sialylated) was distributed predominantly to the kidneys 5, 15, and 30 min after injection. In contrast, phTSH (sulfated/sialylated) and bovine TSH (bTSH; solely sulfated) were cleared predominantly by the liver (at 5 min), with a later renal phase of clearance (at 30 min). Asialo-rhTSH was cleared by the liver with only minor involvement of other organs. The early liver uptake (at 5 min) was proportionally highest for the asialo-rhTSH and bTSH preparations and lowest for rhTSH, which correlated inversely with the serum levels and the degree of sialylation. Blockade of the N-acetylgalactosamine (GalNAc) sulfate receptors by injection of bovine LH resulted in a significant decrease in liver uptake of phTSH. Similarly, liver uptake of asialo-rhTSH was significantly inhibited by injection of asialo-fetuin. Thus, phTSH and bTSH preparations containing sulfated oligosaccharide chains are cleared at least in part by the GalNAc sulfate-specific receptors in the liver. In contrast, rhTSH with highly sialylated oligosaccharides in both subunits accumulates predominantly in the kidneys, even at the early phase of clearance, indicating that sialylated glycoprotein hormones escape from specific receptor-mediated clearance mechanisms in the liver. These data indicate that terminal sialic acid and GalNAc sulfate residues, each to a different extent, determine glycoprotein hormone distribution and thereby plasma level, which as we have shown previously is a major factor in determining the in vivo potency of TSH.
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