钠-钒-ATP酶抑制剂抑制耐万古霉素肠球菌生长并揭示钠途径结构。

Na-V-ATPase inhibitor curbs VRE growth and unveils Na pathway structure.

作者信息

Suzuki Kano, Goto Yoshiyuki, Otomo Akihiro, Shimizu Kouki, Abe Shohei, Moriyama Katsuhiko, Yasuda Satoshi, Hashimoto Yusuke, Kurushima Jun, Mikuriya Sho, Imai Fabiana L, Adachi Naruhiko, Kawasaki Masato, Sato Yumi, Ogasawara Satoshi, Iwata So, Senda Toshiya, Ikeguchi Mitsunori, Tomita Haruyoshi, Iino Ryota, Moriya Toshio, Murata Takeshi

机构信息

Department of Chemistry, Graduate School of Science, Chiba University, Chiba, Japan.

Department of Quantum Life Science, Graduate School of Science, Chiba University, Chiba, Japan.

出版信息

Nat Struct Mol Biol. 2025 Mar;32(3):450-458. doi: 10.1038/s41594-024-01419-y. Epub 2024 Nov 21.

DOI:10.1038/s41594-024-01419-y

PMID:39572733

Abstract

Vancomycin-resistant Enterococcus faecium (VRE) is a major cause of nosocomial infections, particularly endocarditis and sepsis. With the diminishing effectiveness of antibiotics against VRE, new antimicrobial agents are urgently needed. Our previous research demonstrated the crucial role of Na-transporting V-ATPase in Enterococcus hirae for growth under alkaline conditions. In this study, we identified a compound, V-161, from 70,600 compounds, which markedly inhibits E. hirae V-ATPase activity. V-161 not only inhibits VRE growth in alkaline conditions but also significantly suppresses VRE colonization in the mouse small intestine. Furthermore, we unveiled the high-resolution structure of the membrane V part due to V-161 binding. V-161 binds to the interface of the c-ring and a-subunit, constituting the Na transport pathway in the membrane, thereby halting its rotation. This structural insight presents potential avenues for developing therapeutic agents for VRE treatment and elucidates the Na transport pathway and mechanism.

摘要

耐万古霉素屎肠球菌（VRE）是医院感染的主要原因，尤其是心内膜炎和败血症。随着抗生素对VRE的有效性不断降低，迫切需要新的抗菌药物。我们之前的研究表明，钠转运V-ATP酶在碱性条件下对平肠球菌的生长起着关键作用。在本研究中，我们从70600种化合物中鉴定出一种化合物V-161，它能显著抑制平肠球菌V-ATP酶的活性。V-161不仅能在碱性条件下抑制VRE的生长，还能显著抑制VRE在小鼠小肠中的定植。此外，由于V-161的结合，我们揭示了膜V部分的高分辨率结构。V-161与c环和a亚基的界面结合，构成膜中的钠转运途径，从而使其旋转停止。这一结构见解为开发治疗VRE的治疗药物提供了潜在途径，并阐明了钠转运途径和机制。

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钠-钒-ATP酶抑制剂抑制耐万古霉素肠球菌生长并揭示钠途径结构。

Na-V-ATPase inhibitor curbs VRE growth and unveils Na pathway structure.

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