Structural basis of enzyme activity regulation by the propeptide of l-lysine α-oxidase precursor from Trichoderma viride

IF 3.5 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY
Masaki Kitagawa , Nanako Ito , Yuya Matsumoto , Masaya Saito , Takashi Tamura , Hitoshi Kusakabe , Kenji Inagaki , Katsumi Imada
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引用次数: 5

Abstract

Harmuful proteins are usually synthesized as inactive precursors and are activated by proteolytic processing. l-Amino acid oxidase (LAAO) is a flavoenzyme that catalyzes the oxidative deamination of l-amino acid to produce a 2-oxo acid with ammonia and highly toxic hydrogen peroxide and, therefore, is expressed as a precursor. The LAAO precursor shows significant variation in size and the cleavage pattern for activation. However, the molecular mechanism of how the propeptide suppresses the enzyme activity remains unclear except for deaminating/decarboxylating Pseudomonas l-phenylalanine oxidase (PAO), which has a short N-terminal propeptide composed of 14 residues. Here we show the inactivation mechanism of the l-lysine oxidase (LysOX) precursor (prLysOX), which has a long N-terminal propeptide composed of 77 residues, based on the crystal structure at 1.97 Å resolution. The propeptide of prLysOX indirectly changes the active site structure to inhibit the enzyme activity. prLysOX retains weak enzymatic activity with strict specificity for l-lysine and shows raised activity in acidic conditions. The structures of prLysOX crystals that soaked in a solution with various concentrations of l-lysine have revealed that prLysOX can adopt two conformations; one is the inhibitory form, and the other is very similar to mature LysOX. The propeptide region of the latter form is disordered, and l-lysine is bound to the latter form. These results indicate that prLysOX uses a different strategy from PAO to suppress the enzyme activity and suggest that prLysOX can be activated quickly in response to the environmental change without proteolytic processing.

Abstract Image

绿色木霉l-赖氨酸α-氧化酶前体前体肽调节酶活性的结构基础
Harmuful蛋白通常作为无活性的前体合成,并通过蛋白水解处理活化。l-氨基酸氧化酶(LAAO)是一种黄素酶,催化l-氨基酸的氧化脱氨作用,用氨和剧毒过氧化氢产生2-氧代酸,因此被表达为前体。LAAO前体显示出用于活化的尺寸和切割模式的显著变化。然而,除了脱氨基/脱羧假单胞菌l-苯丙氨酸氧化酶(PAO)外,前肽如何抑制酶活性的分子机制尚不清楚,PAO具有由14个残基组成的短N-末端前肽。在这里,我们展示了l-赖氨酸氧化酶(LysOX)前体(prLysOX)的失活机制,该前体具有由77个残基组成的长N-末端前肽,基于1.97的晶体结构 Å分辨率。prLysOX的前肽间接改变活性位点结构以抑制酶活性。prLysOX保留了对l-赖氨酸具有严格特异性的弱酶活性,并且在酸性条件下显示出提高的活性。在不同浓度的l-赖氨酸溶液中浸泡的prLysOX晶体的结构表明,prLysOX可以采用两种构象;一种是抑制形式,另一种与成熟的LysOX非常相似。后一种形式的前肽区是无序的,l-赖氨酸与后一种类型结合。这些结果表明,prLysOX使用不同于PAO的策略来抑制酶活性,并表明prLysOX可以在不进行蛋白水解处理的情况下快速响应环境变化而被激活。
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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来源期刊
Journal of Structural Biology: X
Journal of Structural Biology: X Biochemistry, Genetics and Molecular Biology-Structural Biology
CiteScore
6.50
自引率
0.00%
发文量
20
审稿时长
62 days
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