Biochemical Characterization of Two Clinically-Relevant Human Fumarase Variants Defective for Oligomerization.

The Open Biochemistry Journal Pub Date : 2018-01-29 eCollection Date: 2018-01-01 DOI:10.2174/1874091X01812010001

Artemisa Bulku, Todd M Weaver, Melanie B Berkmen

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引用次数: 15

Abstract

Background: Fumarase, a significant enzyme of energy metabolism, catalyzes the reversible hydration of fumarate to L-malate. Mutations in the FH gene, encoding human fumarase, are associated with fumarate hydratase deficiency (FHD) and hereditary leiomyomatosis and renal cell cancer (HLRCC). Fumarase assembles into a homotetramer, with four active sites. Interestingly, residues from three of the four subunits within the homotetramer comprise each active site. Hence, any mutation affecting oligomerization is predicted to disrupt enzyme activity.

Methods: We constructed two variants of hexahistidine-tagged human recombinant fumarase, A308T and H318Y, associated with FHD and HLRCC, respectively. Both Ala308 and His318 lie within the fumarase intersubunit interface. We purified unmodified human fumarase and the two variants, and analyzed their enzymatic activities and oligomerization states in vitro.

Results: Both variants showed severely diminished fumarase activity. Steady-state kinetic analysis demonstrated that the variants were largely defective due to decreased turnover rate, while displaying K_m values for L-malate similar to unmodified human recombinant fumarase. Blue native polyacrylamide gel electrophoresis and gel filtration experiments revealed that each variant had an altered oligomerization state, largely forming homodimers rather than homotetramers.

Conclusion: We conclude that A308T and H318Y render human fumarase enzymatically inactive via defective oligomerization. Therefore, some forms of FHD and HLRCC can be linked to improperly folded quaternary structure.

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两种临床相关的人富马酸酶寡聚化缺陷的生化特征。

背景:富马酸酶是一种重要的能量代谢酶，催化富马酸的可逆水合作用生成l -苹果酸。编码人富马酸酶的FH基因突变与富马酸水合酶缺乏症(FHD)、遗传性平滑肌瘤病和肾细胞癌(HLRCC)有关。延胡索酶组装成具有四个活性位点的同型四聚体。有趣的是，同型四聚体中四个亚基中的三个残基组成了每个活性位点。因此，预计任何影响寡聚化的突变都会破坏酶的活性。方法:构建了两种分别与FHD和HLRCC相关的六组氨酸标记的重组人富马酸酶A308T和H318Y变体。Ala308和His318都位于延胡索酶亚基界面内。我们纯化了未修饰的人延胡索酸酶和两个变体，并分析了它们的酶活性和体外寡聚状态。结果:两种变异均显示富马酸酶活性严重降低。稳态动力学分析表明，由于周转率降低，变异在很大程度上存在缺陷，而l -苹果酸的Km值与未修饰的重组人富马酸酶相似。蓝色原生聚丙烯酰胺凝胶电泳和凝胶过滤实验显示，每种变体的寡聚化状态都发生了改变，主要形成同型二聚体而不是同型四聚体。结论:A308T和H318Y通过缺陷寡聚化使人延胡索酸酶失活。因此，某些形式的FHD和HLRCC可以与不正确折叠的四级结构联系起来。

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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The Open Biochemistry Journal

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