Kinetic and structural characterization of NUDT15 and NUDT18 as catalysts of isoprene pyrophosphate hydrolysis

Emma R. Scaletti, Judith E. Unterlass, Ingrid Almlöf, Tobias Koolmeister, Karl S. Vallin, Despina Kapsitidou, Viktoriia Tsuber, Thomas Helleday, Pål Stenmark, Ann-Sofie Jemth
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Abstract

Isoprene pyrophosphates play a crucial role in the synthesis of a diverse array of essential nonsterol and sterol biomolecules and serve as substrates for posttranslational isoprenylation of proteins, enabling specific anchoring to cellular membranes. Hydrolysis of isoprene pyrophosphates would be a means to modulate their levels, downstream products, and protein isoprenylation. While NUDIX hydrolases from plants have been described to catalyze the hydrolysis of isoprene pyrophosphates, homologous enzymes with this function in animals have not yet been reported. In this study, we screened an extensive panel of human NUDIX hydrolases for activity in hydrolyzing isoprene pyrophosphates. We found that human nucleotide triphosphate diphosphatase NUDT15 and 8-oxo-dGDP phosphatase NUDT18 efficiently catalyze the hydrolysis of several physiologically relevant isoprene pyrophosphates. Notably, we demonstrate that geranyl pyrophosphate is an excellent substrate for NUDT18, with a catalytic efficiency of 2.1 × 105m−1·s−1, thus making it the best substrate identified for NUDT18 to date. Similarly, geranyl pyrophosphate proved to be the best isoprene pyrophosphate substrate for NUDT15, with a catalytic efficiency of 4.0 × 104 M−1·s−1. LC–MS analysis of NUDT15 and NUDT18 catalyzed isoprene pyrophosphate hydrolysis revealed the generation of the corresponding monophosphates and inorganic phosphate. Furthermore, we solved the crystal structure of NUDT15 in complex with the hydrolysis product geranyl phosphate at a resolution of 1.70 Å. This structure revealed that the active site nicely accommodates the hydrophobic isoprenoid moiety and helped identify key binding residues. Our findings imply that isoprene pyrophosphates are endogenous substrates of NUDT15 and NUDT18, suggesting they are involved in animal isoprene pyrophosphate metabolism.

Abstract Image

作为焦磷酸异戊二烯水解催化剂的 NUDT15 和 NUDT18 的动力学和结构特征。
焦磷酸异戊二烯酯在合成各种重要的非甾醇和甾醇生物大分子中发挥着至关重要的作用,并且是蛋白质翻译后异戊烯化的底物,可使蛋白质特异性地锚定在细胞膜上。异戊二烯焦磷酸盐的水解是调节其含量、下游产物和蛋白质异戊烯化的一种手段。虽然植物中的 NUDIX 水解酶可催化焦磷酸异戊二烯酯的水解,但动物中具有这种功能的同源酶尚未见报道。在这项研究中,我们筛选了大量人类 NUDIX 水解酶,以了解它们在水解焦磷酸异戊二烯酯方面的活性。我们发现,人类核苷酸三磷酸二磷酸酶 NUDT15 和 8-oxo-dGDP 磷酸酶 NUDT18 能有效催化几种与生理相关的异戊二烯焦磷酸盐的水解。值得注意的是,我们证明焦磷酸香叶酯是 NUDT18 的优良底物,其催化效率为 2.1 × 105 m-1-s-1,从而使其成为迄今为止 NUDT18 发现的最佳底物。同样,焦磷酸香叶酯被证明是 NUDT15 的最佳焦磷酸异戊二烯底物,催化效率为 4.0 × 104 M-1-s-1。对 NUDT15 和 NUDT18 催化焦磷酸异戊二烯酯水解的 LC-MS 分析显示,生成了相应的单磷酸盐和无机磷酸盐。此外,我们还解析了 NUDT15 与水解产物磷酸香叶酯的晶体结构,分辨率为 1.70 Å。该结构揭示了活性位点能很好地容纳疏水性异戊二烯分子,并有助于确定关键的结合残基。我们的发现意味着焦磷酸异戊二烯酯是 NUDT15 和 NUDT18 的内源性底物,这表明它们参与了动物焦磷酸异戊二烯酯的代谢。
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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