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不同的 γ-分泌酶复合物产生特征性淀粉样 β 肽谱。

Signature amyloid β profiles are produced by different γ-secretase complexes.

机构信息

From the Center for the Biology of Disease, Flemish Institute for Biology (VIB), 3000 Leuven, Belgium.

出版信息

J Biol Chem. 2014 Feb 14;289(7):4346-55. doi: 10.1074/jbc.M113.530907. Epub 2013 Dec 13.

DOI:10.1074/jbc.M113.530907
PMID:24338474
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3924297/
Abstract

γ-Secretase complexes are involved in the generation of amyloid-β (Aβ) in the brain. Therefore, γ-secretase has been proposed as a potential therapeutic target in Alzheimer disease (AD). Targeting γ-secretase activity in AD requires the pharmacological dissociation of the processing of physiological relevant substrates and the generation of "toxic" Aβ. Previous reports suggest the differential targeting of γ-secretase complexes, based on their subunit composition, as a valid strategy. However, little is known about the biochemical properties of the different complexes, and key questions regarding their Aβ product profiles should be first addressed. Here, we expressed, purified, and analyzed, under the same conditions, the endopeptidase and carboxypeptidase-like activities of the four γ-secretase complexes present in humans. We find that the nature of the catalytic subunit in the complex affects both activities. Interestingly, PSEN2 complexes discriminate between the Aβ40 and Aβ38 production lines, indicating that Aβ generation in one or the other pathway can be dissociated. In contrast, the APH1 subunit mainly affects the carboxypeptidase-like activity, with APH1B complexes favoring the generation of longer Aβ peptides. In addition, we determined that expression of a single human γ-secretase complex in cell lines retains the intrinsic attributes of the protease while present in the membrane, providing validation for the in vitro studies. In conclusion, our data show that each γ-secretase complex produces a characteristic Aβ signature. The qualitative and quantitative differences between different γ-secretase complexes could be used to advance drug development in AD and other disorders.

摘要

γ-分泌酶复合物参与大脑中淀粉样蛋白-β (Aβ) 的生成。因此,γ-分泌酶已被提议作为阿尔茨海默病 (AD) 的潜在治疗靶点。在 AD 中靶向 γ-分泌酶活性需要药理学分离生理相关底物的加工和“毒性”Aβ的生成。先前的报告表明,基于其亚基组成对 γ-分泌酶复合物进行差异化靶向是一种有效的策略。然而,人们对不同复合物的生化特性知之甚少,并且应该首先解决有关其 Aβ产物谱的关键问题。在这里,我们在相同条件下表达、纯化和分析了人类中存在的四种 γ-分泌酶复合物的内切酶和羧肽酶样活性。我们发现复合物中催化亚基的性质会影响这两种活性。有趣的是,PSEN2 复合物区分了 Aβ40 和 Aβ38 生成途径,表明可以将一种或另一种途径中的 Aβ 生成分离。相比之下,APH1 亚基主要影响羧肽酶样活性,APH1B 复合物有利于生成更长的 Aβ 肽。此外,我们确定在细胞系中表达单个人类 γ-分泌酶复合物保留了蛋白酶的内在属性,同时存在于膜中,为体外研究提供了验证。总之,我们的数据表明,每个 γ-分泌酶复合物产生特征性的 Aβ 特征。不同 γ-分泌酶复合物之间的定性和定量差异可用于推进 AD 和其他疾病的药物开发。

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Comparison of presenilin 1 and presenilin 2 γ-secretase activities using a yeast reconstitution system.使用酵母重组系统比较早老素 1 和早老素 2 γ-分泌酶活性。
J Biol Chem. 2011 Dec 30;286(52):44569-75. doi: 10.1074/jbc.M111.270108. Epub 2011 Nov 10.
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Dissociation between the processivity and total activity of γ-secretase: implications for the mechanism of Alzheimer's disease-causing presenilin mutations.γ-分泌酶的持续性和总活性的分离:对阿尔茨海默病致病早老素突变机制的影响。
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