6-Methoxyldihydrochelerythrine Chloride 对细胞内和细胞外耐药细菌的抑制作用。

IF 4 2区医学 Q2 CHEMISTRY, MEDICINAL ACS Infectious Diseases Pub Date : 2024-09-13 Epub Date: 2024-08-26 DOI:10.1021/acsinfecdis.4c00571

Li-Yu Bai, Zhao-Jie Wang, Qing-Yu Lu, Huan Huang, Yan-Yan Zhu, Yun-Li Zhao, Xiao-Dong Luo

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引用次数: 0

摘要

耐万古霉素肠球菌（VRE）是一种主要的鼻腔病原体，由于其强大的毒力和生物膜形成能力，其感染性有所增强。在这项研究中，6-甲氧基二氢氯化赤藓红（6-MDC）抑制了指数期 VRE 的生长，并恢复了 VRE 对万古霉素的敏感性。通过 RNA-Seq 分析，6-MDC 主要抑制了 VRE 中嘧啶和嘌呤的从头生物合成途径，导致 DNA 合成受阻，从而削弱了细菌的毒力，阻碍了其在细胞内的存活。此外，6-MDC 还能抑制生物膜的形成，根除已形成的生物膜，降低毒力，并增强宿主的免疫反应，从而阻止 VRE 在细胞内存活和复制。最后，在小鼠腹膜感染模型中，6-MDC 能显著减少腹腔液和细胞中的 VRE 负荷。本文首次揭示了二苯并菲啶生物碱的潜在抗菌靶点。

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6-Methoxyldihydrochelerythrine Chloride Inhibiting Intra and Extracellular Drug-Resistant Bacteria.

Vancomycin-resistant enterococcus (VRE) is a major nosocomial pathogen that exhibits enhanced infectivity due to its robust virulence and biofilm-forming capabilities. In this study, 6-methoxyldihydrochelerythrine chloride (6-MDC) inhibited the growth of exponential-phase VRE and restored VRE's sensitivity to vancomycin. 6-MDC predominantly suppressed the de novo biosynthetic pathway of pyrimidine and purine in VRE by the RNA-Seq analysis, resulting in obstructed DNA synthesis, which subsequently weakened bacterial virulence and impeded intracellular survival. Furthermore, 6-MDC inhibited biofilm formation, eradicated established biofilms, reduced virulence, and enhanced the host immune response to prevent intracellular survival and replication of VRE. Finally, 6-MDC reduced the VRE load in peritoneal fluid and cells significantly in a murine peritoneal infection model. This paper provides insight into the potential antimicrobial target of benzophenanthridine alkaloids for the first time.

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来源期刊

ACS Infectious Diseases CHEMISTRY, MEDICINALINFECTIOUS DISEASES&nb-INFECTIOUS DISEASES

CiteScore

9.70

自引率

3.80%

发文量

213

期刊介绍： ACS Infectious Diseases will be the first journal to highlight chemistry and its role in this multidisciplinary and collaborative research area. The journal will cover a diverse array of topics including, but not limited to: * Discovery and development of new antimicrobial agents — identified through target- or phenotypic-based approaches as well as compounds that induce synergy with antimicrobials. * Characterization and validation of drug target or pathways — use of single target and genome-wide knockdown and knockouts, biochemical studies, structural biology, new technologies to facilitate characterization and prioritization of potential drug targets. * Mechanism of drug resistance — fundamental research that advances our understanding of resistance; strategies to prevent resistance. * Mechanisms of action — use of genetic, metabolomic, and activity- and affinity-based protein profiling to elucidate the mechanism of action of clinical and experimental antimicrobial agents. * Host-pathogen interactions — tools for studying host-pathogen interactions, cellular biochemistry of hosts and pathogens, and molecular interactions of pathogens with host microbiota. * Small molecule vaccine adjuvants for infectious disease. * Viral and bacterial biochemistry and molecular biology.