基于醛对细菌1-脱氧-D-木酮糖-5-磷酸合酶上C2α-乳酰硫胺二磷酸脱羧作用的激活

Aldehyde-based Activation of C2α-lactylthiamin Diphosphate Decarboxylation on Bacterial 1-deoxy-d-xylulose 5-phosphate Synthase.

作者信息

Toci Eucolona M, Majumdar Ananya, Meyers Caren L Freel

机构信息

Department of Pharmacology and Molecular Sciences, Johns Hopkins University School of Medicine, Baltimore, Maryland, 21205, United States.

Biomolecular NMR Center, Johns Hopkins University, Baltimore, Maryland, 21218, United States.

出版信息

Chembiochem. 2024 Dec 2;25(23):e202400558. doi: 10.1002/cbic.202400558. Epub 2024 Nov 6.

DOI:10.1002/cbic.202400558

PMID:39268973

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11611629/

Abstract

1-Deoxy-d-xylulose 5-phosphate synthase (DXPS) catalyzes the thiamin diphosphate (ThDP)-dependent formation of DXP from pyruvate (donor substrate) and d-glyceraldehyde 3-phosphate (d-GAP, acceptor substrate) in bacterial central metabolism. DXPS uses a ligand-gated mechanism in which binding of a small molecule "trigger" activates the first enzyme-bound intermediate, C2α-lactylThDP (LThDP), to form the reactive carbanion via LThDP decarboxylation. d-GAP is the natural acceptor substrate for DXPS and also serves a role as a trigger to induce LThDP decarboxylation in the gated step. Additionally, we have shown that O and d-glyceraldehyde (d-GA) can induce LThDP decarboxylation. We hypothesize this ligand-gated mechanism poises DXPS to sense and respond to cellular cues in metabolic remodeling during bacterial adaptation. Here we sought to characterize features of small molecule inducers of LThDP decarboxylation. Using a combination of CD, NMR and biochemical methods, we demonstrate that the α-hydroxy aldehyde moiety of d-GAP is sufficient to induce LThDP decarboxylation en route to DXP formation. A variety of aliphatic aldehydes also induce LThDP decarboxylation. The study highlights the capacity of DXPS to respond to different molecular cues, lending support to potential multifunctionality of DXPS and its metabolic regulation by this mechanism.

摘要

1-脱氧-D-木酮糖5-磷酸合酶（DXPS）在细菌中心代谢中催化硫胺素二磷酸（ThDP）依赖性地由丙酮酸（供体底物）和D-甘油醛3-磷酸（D-GAP，受体底物）形成DXP。DXPS采用配体门控机制，其中小分子“触发物”的结合激活第一个与酶结合的中间体C2α-乳酰硫胺素二磷酸（LThDP），通过LThDP脱羧形成反应性碳负离子。D-GAP是DXPS的天然受体底物，在门控步骤中也起到触发物的作用，诱导LThDP脱羧。此外，我们已经证明O和D-甘油醛（D-GA）可以诱导LThDP脱羧。我们推测这种配体门控机制使DXPS能够在细菌适应过程中的代谢重塑中感知并响应细胞信号。在此，我们试图表征LThDP脱羧的小分子诱导剂的特征。通过结合圆二色光谱（CD）、核磁共振（NMR）和生化方法，我们证明D-GAP的α-羟基醛部分足以在形成DXP的过程中诱导LThDP脱羧。多种脂肪醛也能诱导LThDP脱羧。该研究突出了DXPS对不同分子信号作出响应的能力，支持了DXPS的潜在多功能性及其通过这种机制进行的代谢调控。

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