Effect of carbohydrates on the pharmacokinetics of human interferon-gamma.

Journal of interferon research Pub Date : 1993-08-01 DOI:10.1089/jir.1993.13.267

T Sareneva, K Cantell, L Pyhälä, J Pirhonen, I Julkunen

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引用次数: 45

Abstract

Human interferon-gamma (IFN-gamma) has two N-linked glycosylation sites at positions 25 and 97 of the 143-amino-acid-long secretory form. To study the role of glycan residues in the pharmacokinetics of IFN-gamma, we produced recombinant IFN-gamma molecules lacking either one or both of the glycosylation sites (Asn mutated to Gln) by baculovirus expression in insect cells. In addition, we produced the fully glycosylated forms both in insect cells and in human leukocyte cultures. Two million units of each IFN were injected intravenously or intramuscularly into rabbits. The glycosylated IFN-gamma molecules from the insect cells were rapidly eliminated from the blood. This is probably due to the fact that their oligosaccharides are of a high mannose type that are rapidly taken up by the liver. The unglycosylated IFN-gamma persisted longer in the blood than the glycosylated recombinant forms. However, the natural IFN-gamma exhibited the longest survival in the blood. The results emphasize the importance of the carbohydrate groups in human IFN-gamma to its pharmacokinetic properties.

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碳水化合物对人干扰素- γ药代动力学的影响。

人γ干扰素(ifn - γ)在143个氨基酸长的分泌形式的第25位和第97位有两个n连接的糖基化位点。为了研究多糖残基在ifn - γ的药代动力学中的作用，我们通过杆状病毒在昆虫细胞中表达缺乏一个或两个糖基化位点(Asn突变为Gln)的重组ifn - γ分子。此外，我们在昆虫细胞和人类白细胞培养中都产生了完全糖基化的形式。分别给家兔静脉注射或肌肉注射IFN各200万单位。昆虫细胞中的糖基化ifn -分子迅速从血液中清除。这可能是因为它们的低聚糖是一种高甘露糖类型，可以迅速被肝脏吸收。未糖基化的ifn - γ在血液中的持续时间比糖基化的重组形式更长。然而，天然ifn - γ在血液中存活时间最长。结果强调了人类ifn - γ中碳水化合物组对其药代动力学性质的重要性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of interferon research

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