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人酸性神经酰胺酶的自蛋白水解切割与激活

Autoproteolytic cleavage and activation of human acid ceramidase.

作者信息

Shtraizent Nataly, Eliyahu Efrat, Park Jae-Ho, He Xingxuan, Shalgi Ruth, Schuchman Edward H

机构信息

Department of Genetics and Genomic Sciences, Mount Sinai School of Medicine, New York, New York 10029, USA.

出版信息

J Biol Chem. 2008 Apr 25;283(17):11253-9. doi: 10.1074/jbc.M709166200. Epub 2008 Feb 14.

DOI:10.1074/jbc.M709166200
PMID:18281275
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2431059/
Abstract

Herein we report the mechanism of human acid ceramidase (AC; N-acylsphingosine deacylase) cleavage and activation. A highly purified, recombinant human AC precursor underwent self-cleavage into alpha and beta subunits, similar to other members of the N-terminal nucleophile hydrolase superfamily. This reaction proceeded with first order kinetics, characteristic of self-cleavage. AC self-cleavage occurred most rapidly at acidic pH, but also at neutral pH. Site-directed mutagenesis and expression studies demonstrated that Cys-143 was an essential nucleophile that was required at the cleavage site. Other amino acids participating in AC cleavage included Arg-159 and Asp-162. Mutations at these three amino acids prevented AC cleavage and activity, the latter assessed using BODIPY-conjugated ceramide. We propose the following mechanism for AC self-cleavage and activation. Asp-162 likely forms a hydrogen bond with Cys-143, initiating a conformational change that allows Arg-159 to act as a proton acceptor. This, in turn, facilitates an intermediate thioether bond between Cys-143 and Ile-142, the site of AC cleavage. Hydrolysis of this bond is catalyzed by water. Treatment of recombinant AC with the cysteine protease inhibitor, methyl methanethiosulfonate, inhibited both cleavage and enzymatic activity, further indicating that cysteine-mediated self-cleavage is required for ceramide hydrolysis.

摘要

在此,我们报告了人酸性神经酰胺酶(AC;N-酰基鞘氨醇脱酰基酶)的切割和激活机制。一种高度纯化的重组人AC前体发生自切割,形成α和β亚基,这与N端亲核水解酶超家族的其他成员类似。该反应以一级动力学进行,这是自切割的特征。AC自切割在酸性pH下发生得最快,但在中性pH下也会发生。定点诱变和表达研究表明,半胱氨酸-143是切割位点所需的必需亲核试剂。参与AC切割的其他氨基酸包括精氨酸-159和天冬氨酸-162。这三个氨基酸的突变阻止了AC的切割和活性,后者使用BODIPY偶联神经酰胺进行评估。我们提出了以下AC自切割和激活的机制。天冬氨酸-162可能与半胱氨酸-143形成氢键,引发构象变化,使精氨酸-159充当质子受体。这反过来又促进了半胱氨酸-143和异亮氨酸-142(AC切割位点)之间的中间硫醚键形成。该键的水解由水催化。用半胱氨酸蛋白酶抑制剂甲硫基磺酸甲酯处理重组AC,可抑制切割和酶活性,进一步表明半胱氨酸介导的自切割是神经酰胺水解所必需的。

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