重组人溶酶体α-葡萄糖苷酶(rhGAA)对人肝糖原的作用:完全降解途径

A. Murray
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引用次数: 2

摘要

糖原存在于所有组织中,但主要储存在肝脏和肌肉中。作为一种支链碳水化合物,它被细胞质中的磷酸化酶和脱支酶分解。它也被溶酶体α-葡萄糖苷酶(GAA)降解,也被称为酸性α-葡萄糖苷酶和溶酶体酸性α-葡萄糖苷酶。患者的GAA缺乏被称为庞贝病,其表型为婴儿期、少年期和晚发病形式。庞贝病的治疗是酶替代疗法(ERT)与重组形式的rhGAA。在Pompe小鼠和人类患者的ERT后,细胞的细胞质中存在残留的碳水化合物物质。本工作的目的是改进ERT,并尝试鉴定和处理残留的细胞质碳水化合物。最初的实验是确定rhGAA是否能完全降解糖原。这种酶不能完全降解糖原。残糖基化蛋白和可溶性糖基化蛋白是糖原的末端降解产物,因此可作为溶酶体糖原降解的生物标志物。对于糖基化蛋白来说,糖基化蛋白的碳水化合物组成非常不寻常:间肌醇、s肌醇和山梨醇是主要的碳水化合物,还有甘露醇、甘露糖、葡萄糖和半乳糖。这项工作描述了可能含有与可溶性糖基化蛋白相同的蛋白质的残留物质。该生物标志物存在于对照组和接受ERT治疗的Pompe患者的血清中,但不存在于未接受ERT治疗的Pompe小鼠的血清中。未接受ERT治疗的Pompe小鼠血清中有另一种糖基化蛋白,这可能是Pompe病的生物标志物。这种蛋白质有多个糖基化位点,每个位点都有不同的碳水化合物成分。讨论了这些糖基化蛋白以及糖原结构的复杂性,以及未来的方向,试图通过能够在短期内监测ERT的疗效,并可能调整酶输注的时间和剂量来改善Pompe患者ERT的结果。
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The Action of Recombinant Human Lysosomal α-Glucosidase (rhGAA) on Human Liver Glycogen: Pathway to Complete Degradation
Glycogen is present in all tissues, but it is primarily stored in the liver and in muscle. As a branched chain carbohydrate, it is broken down by phosphorylase and debrancher enzymes, which are cytoplasmic. It is also degraded by a lysosomal α-glucosidase (GAA) also known as acid α-glucosidase and lysosomal acid α-glucosidase. The deficiency of GAA in patients is known as Pompe disease, and the phenotypes as infantile, juvenile and later onset forms. Pompe disease is treated by enzyme replacement therapy (ERT) with a recombinant form of rhGAA. Following ERT in Pompe mice and human patients there is residual carbohydrate material present in the cytoplasm of cells. The goal of this work is to improve ERT and attempt to identify and treat the residual cytoplasmic carbohydrate. Initial experiments were to determine if rhGAA can completely degrade glycogen. The enzyme cannot completely degrade glycogen. There is a residual glycosylated protein as well as a soluble glycosylated protein, which is a terminal degradation product of glycogen and as such serves as a biomarker for lysosomal glycogen degradation. The glycosylated protein has a very unusual carbohydrate composition for a glycosylated protein: m-inositol, s-inositol and sorbitol as the major carbohydrates, as well as mannitol, mannose, glucose and galactose. This work describes the residual material which likely contains the same protein as the soluble glycosylated protein. The biomarker is present in serum of control and Pompe patients on ERT, but it is not present in the serum of Pompe mice not on ERT. Pompe mice not on ERT have another glycosylated protein in their serum which may be a biomarker for Pompe disease. This protein has multiple glycosylation sites, each with different carbohydrate components. These glycosylated proteins as well as the complexity of glycogen structure are discussed, as well as future directions to try to improve the outcome of ERT for Pompe patients by being able to monitor the efficacy of ERT in the short term and possibly to adjust the timing and dose of enzyme infusions.
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来源期刊
Journal of International Translational Medicine
Journal of International Translational Medicine MEDICINE, RESEARCH & EXPERIMENTAL-
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317
审稿时长
8 weeks
期刊介绍: Journal of International Translational Medicine (JITM, ISSN 2227-6394), founded in 2012, is an English academic journal published by Journal of International Translational Medicine Co., Ltd and sponsored by International Fderation of Translational Medicine. JITM is an open access journal freely serving to submit, review, publish, read and download full text and quote. JITM is a quarterly publication with the first issue published in March, 2013, and all articles published in English are compiled and edited by professional graphic designers according to the international compiling and editing standard. All members of the JITM Editorial Board are the famous international specialists in the field of translational medicine who come from twenty different countries and areas such as USA, Britain, France, Germany and so on.
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