RavA-ViaA伴侣复合物通过与富马酸还原酶的结合调节细菌的持久性。

The Journal of Biological Chemistry Pub Date : 2023-10-01 Epub Date: 2023-09-03 DOI:10.1016/j.jbc.2023.105199
Vaibhav Bhandari, Sean E Reichheld, Scott Houliston, Alexander Lemak, Cheryl H Arrowsmith, Simon Sharpe, Walid A Houry
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摘要

调节性ATP酶变体A(RavA)是一种MoxR AAA+蛋白,与一种称为von Willebrand因子A型的伴侣蛋白一起发挥作用,该伴侣蛋白与AAA+ATP酶(ViaA)相互作用。RavA-ViaA通过与富马酸还原酶(Frd)电子传输复合物的相互作用,在大肠杆菌中与厌氧呼吸功能相关。通过这种结合,RavA和ViaA调节Frd复合物的活性,因此被认为具有伴侣样活性。然而,RavA-ViaA在细胞中的功能作用尚未完全确定。我们已经证明RavA-ViaA可以使大肠杆菌细胞对亚致死浓度的氨基糖苷类抗生素敏感。由于Frd与细菌对抗生素的持久性有关,因此在此背景下探讨了RavA-ViaA和Frd的关系。在此进行的实验通过伴侣复合物与Frd的结合揭示了RavA-ViaA在抗生素治疗后细菌持久性中的作用。作为这项工作的一部分,解决了ViaA的N-末端结构域的NMR结构。该结构揭示了一种新的α螺旋折叠,我们将其命名为VAN折叠,这是以前从未观察到的。我们证明这个结构域是伴侣复合体功能所必需的。我们提出,调节RavA-ViaA的水平可以增强革兰氏阴性菌对抗生素的易感性。
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 RavA-ViaA chaperone complex modulates bacterial persistence through its association with the fumarate reductase enzyme.

Regulatory ATPase variant A (RavA) is a MoxR AAA+ protein that functions together with a partner protein termed von Willebrand factor type A interacting with AAA+ ATPase (ViaA). RavA-ViaA are functionally associated with anaerobic respiration in Escherichia coli through interactions with the fumarate reductase (Frd) electron transport complex. Through this association, RavA and ViaA modulate the activity of the Frd complex and, hence, are proposed to have chaperone-like activity. However, the functional role of RavA-ViaA in the cell is not yet well established. We had demonstrated that RavA-ViaA can sensitize E. coli cells to sublethal concentrations of the aminoglycoside class of antibiotics. Since Frd has been associated with bacterial persistence against antibiotics, the relationship of RavA-ViaA and Frd was explored within this context. Experiments performed here reveal a function of RavA-ViaA in bacterial persistence upon treatment with antibiotics through the association of the chaperone complex with Frd. As part of this work, the NMR structure of the N-terminal domain of ViaA was solved. The structure reveals a novel alpha helical fold, which we name the VAN fold, that has not been observed before. We show that this domain is required for the function of the chaperone complex. We propose that modulating the levels of RavA-ViaA could enhance the susceptibility of Gram-negative bacteria to antibiotics.

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