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本文引用的文献

1
and comparative and competitive activity-based protein profiling of GH29 α-l-fucosidases.以及基于活性的GH29 α-L-岩藻糖苷酶的比较和竞争蛋白质谱分析。
Chem Sci. 2015 May 1;6(5):2782-false. doi: 10.1039/c4sc03739a. Epub 2015 Feb 9.
2
History and mechanisms of oral tolerance.口服耐受的历史和机制。
Semin Immunol. 2017 Apr;30:3-11. doi: 10.1016/j.smim.2017.07.004. Epub 2017 Jul 31.
3
Retrospective study of long-term outcomes of enzyme replacement therapy in Fabry disease: Analysis of prognostic factors.法布里病酶替代疗法长期疗效的回顾性研究:预后因素分析
PLoS One. 2017 Aug 1;12(8):e0182379. doi: 10.1371/journal.pone.0182379. eCollection 2017.
4
Human Alpha Galactosidases Transiently Produced in Leaves: New Insights in Substrate Specificities with Relevance for Fabry Disease.叶片中瞬时产生的人α-半乳糖苷酶:与法布里病相关的底物特异性新见解。
Front Plant Sci. 2017 Jun 21;8:1026. doi: 10.3389/fpls.2017.01026. eCollection 2017.
5
Activity-based probes for functional interrogation of retaining β-glucuronidases.基于活性的探针用于保留β-葡萄糖醛酸酶的功能研究。
Nat Chem Biol. 2017 Aug;13(8):867-873. doi: 10.1038/nchembio.2395. Epub 2017 Jun 5.
6
Production and glyco-engineering of immunomodulatory helminth glycoproteins in plants.在植物中生产和糖基工程化具有免疫调节作用的寄生虫糖蛋白。
Sci Rep. 2017 Apr 10;7:45910. doi: 10.1038/srep45910.
7
Investigations on therapeutic glucocerebrosidases through paired detection with fluorescent activity-based probes.通过基于荧光活性的探针进行配对检测对治疗性葡萄糖脑苷脂酶的研究。
PLoS One. 2017 Feb 16;12(2):e0170268. doi: 10.1371/journal.pone.0170268. eCollection 2017.
8
Simultaneous quantitation of sphingoid bases by UPLC-ESI-MS/MS with identical C-encoded internal standards.采用具有相同 C 编码内标的超高效液相色谱-电喷雾串联质谱法同时定量测定鞘氨醇碱。
Clin Chim Acta. 2017 Mar;466:178-184. doi: 10.1016/j.cca.2017.01.014. Epub 2017 Jan 13.
9
Detection of Active Mammalian GH31 α-Glucosidases in Health and Disease Using In-Class, Broad-Spectrum Activity-Based Probes.利用课堂内广谱活性基于探针检测健康和疾病中的活性哺乳动物 GH31 α-葡萄糖苷酶。
ACS Cent Sci. 2016 May 25;2(5):351-8. doi: 10.1021/acscentsci.6b00057. Epub 2016 Apr 26.
10
Accurate quantification of sphingosine-1-phosphate in normal and Fabry disease plasma, cells and tissues by LC-MS/MS with (13)C-encoded natural S1P as internal standard.以(13)C编码的天然鞘氨醇-1-磷酸(S1P)为内标,通过液相色谱-串联质谱法(LC-MS/MS)对正常和法布里病血浆、细胞及组织中的鞘氨醇-1-磷酸进行准确定量。
Clin Chim Acta. 2016 Aug 1;459:36-44. doi: 10.1016/j.cca.2016.05.017. Epub 2016 May 21.

α-半乳糖苷酶 A1.1 可在功能上弥补与法布雷病相关的人类 α-半乳糖苷酶 A 缺乏症。

α-galactosidase A1.1 can functionally complement human α-galactosidase A deficiency associated with Fabry disease.

机构信息

From the Departments of Medical Biochemistry.

the Plant Sciences Group, Wageningen University and Research, Droevendaalsesteeg 1, 6708 PB Wageningen, and.

出版信息

J Biol Chem. 2018 Jun 29;293(26):10042-10058. doi: 10.1074/jbc.RA118.001774. Epub 2018 Apr 19.

DOI:10.1074/jbc.RA118.001774
PMID:29674318
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6028973/
Abstract

α-Galactosidases (EC 3.2.1.22) are retaining glycosidases that cleave terminal α-linked galactose residues from glycoconjugate substrates. α-Galactosidases take part in the turnover of cell wall-associated galactomannans in plants and in the lysosomal degradation of glycosphingolipids in animals. Deficiency of human α-galactosidase A (α-Gal A) causes Fabry disease (FD), a heritable, X-linked lysosomal storage disorder, characterized by accumulation of globotriaosylceramide (Gb3) and globotriaosylsphingosine (lyso-Gb3). Current management of FD involves enzyme-replacement therapy (ERT). An activity-based probe (ABP) covalently labeling the catalytic nucleophile of α-Gal A has been previously designed to study α-galactosidases for use in FD therapy. Here, we report that this ABP labels proteins in leaf extracts, enabling the identification and biochemical characterization of an α-galactosidase we name here A1.1 (gene accession ID GJZM-1660). The transiently overexpressed and purified enzyme was a monomer lacking -glycans and was active toward 4-methylumbelliferyl-α-d-galactopyranoside substrate ( = 0.17 mm) over a broad pH range. A1.1 structural analysis by X-ray crystallography revealed marked similarities with human α-Gal A, even including A1.1's ability to hydrolyze Gb3 and lyso-Gb3, which are not endogenous in plants. Of note, A1.1 uptake into FD fibroblasts reduced the elevated lyso-Gb3 levels in these cells, consistent with A1.1 delivery to lysosomes as revealed by confocal microscopy. The ease of production and the features of A1.1, such as stability over a broad pH range, combined with its capacity to degrade glycosphingolipid substrates, warrant further examination of its value as a potential therapeutic agent for ERT-based FD management.

摘要

α-半乳糖苷酶(EC 3.2.1.22)是一种保留型糖苷酶,能够从糖缀合物底物中切割末端α-连接的半乳糖残基。α-半乳糖苷酶参与植物细胞壁相关半乳甘露聚糖的周转和动物溶酶体降解糖鞘脂。人α-半乳糖苷酶 A(α-Gal A)缺乏会导致法布里病(FD),这是一种遗传性 X 连锁溶酶体贮积病,其特征是糖鞘脂(Gb3)和神经酰胺糖苷(lyso-Gb3)的积累。FD 的当前治疗方法包括酶替代疗法(ERT)。先前设计了一种基于活性的探针(ABP),可使 α-Gal A 的催化亲核基团共价标记,用于研究用于 FD 治疗的α-半乳糖苷酶。在这里,我们报告该 ABP 标记叶片提取物中的蛋白质,从而能够鉴定和生化表征我们在此处命名为 A1.1(基因访问号 GJZM-1660)的α-半乳糖苷酶。瞬时过表达和纯化的酶是单体,缺乏-β-聚糖,对 4-甲基伞形酮-α-d-半乳糖吡喃糖苷底物( = 0.17mm)具有广泛 pH 范围内的活性。通过 X 射线晶体学对 A1.1 的结构分析显示,其与人类 α-Gal A 具有显著相似性,甚至包括 A1.1 水解 Gb3 和 lyso-Gb3 的能力,而植物中没有这些能力。值得注意的是,A1.1 进入 FD 成纤维细胞可降低这些细胞中升高的 lyso-Gb3 水平,这与共聚焦显微镜显示的 A1.1 递送至溶酶体一致。A1.1 的易于生产以及其特征,例如在广泛的 pH 范围内的稳定性,结合其降解糖鞘脂底物的能力,使其作为 ERT 为基础的 FD 管理的潜在治疗剂的价值值得进一步研究。