解密鲍曼不动杆菌对人类健康的影响,探索天然化合物作为外排泵抑制剂来治疗多药耐药性。

Karthiga Sivarajan, Ramya Ravindhiran, Jothi Nayaki Sekar, Rajeswari Murugesan, Kumarappan Chidambaram, Kavitha Dhandapani
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摘要

鲍曼不动杆菌(Acinetobacter baumannii)是一种 ESKAPE 病原体,会造成高致死率的感染,威胁人类健康。鲍曼不动杆菌可导致多种感染,如皮肤和伤口感染、心内膜炎、脑膜炎、肺炎、败血症和尿路感染。最近,鲍曼不动杆菌出现了耐多药(MDR)菌株,这意味着它们至少对三种不同类别的抗生素具有耐药性。MDR 的产生主要是由于抗生素的广泛滥用和管理不善造成的。世界卫生组织(WHO)宣布鲍曼不动杆菌是一种不稳定的 MDR 物种。鲍曼不动杆菌通过多种抗菌代谢物水解酶、抗生素外流、抗渗透性和抗生素靶点修饰来维持 MDR 表型,从而使治疗复杂化。因此,深入了解 MDR 鲍曼不动杆菌的耐药机制可以为治疗抗菌药耐药性提供可能的方法。耐药性结节细胞分裂(RND)外排泵已被确定为 MDR 决定因素的关键因素,因为它们有能力迫使多种化学物质排出细菌细胞。虽然之前已有合成抑制剂的报道,但其有效性和安全性仍存在争议。植物化学物质作为抗药性调节剂是理想的选择。这些天然化合物可以消灭细菌或与致病性事件相互作用,降低细菌的抗药性进化能力。本综述旨在强调鲍曼不动杆菌多药耐药性背后的机制,并阐明天然化合物作为外排泵抑制剂在应对鲍曼不动杆菌引起的感染方面的效用。
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Deciphering the impact of Acinetobacter baumannii on human health, and exploration of natural compounds as efflux pump inhibitors to treat multidrug resistance.

Acinetobacter baumannii is an ESKAPE pathogen and threatens human health by generating infections with high fatality rates. A. baumannii leads to a spectrum of infections such as skin and wound infections, endocarditis, meningitis pneumonia, septicaemia and urinary tract infections. Recently, strains of A. baumannii have emerged as multidrug-resistant (MDR), meaning they are resistant to at least three different classes of antibiotics. MDR development is primarily intensified by widespread antibiotic misuse and inadequate stewardship. The World Health Organization (WHO) declared A. baumannii a precarious MDR species. A. baumannii maintains the MDR phenotype via a diverse array of antimicrobial metabolite-hydrolysing enzymes, efflux of antibiotics, impermeability and antibiotic target modification, thereby complicating treatment. Hence, a deeper understanding of the resistance mechanisms employed by MDR A. baumannii can give possible approaches to treat antimicrobial resistance. Resistance-nodulation-cell division (RND) efflux pumps have been identified as the key contributors to MDR determinants, owing to their capacity to force a broad spectrum of chemical substances out of the bacterial cell. Though synthetic inhibitors have been reported previously, their efficacy and safety are of debate. As resistance-modifying agents, phytochemicals are ideal choices. These natural compounds could eliminate the bacteria or interact with pathogenicity events and reduce the bacteria's ability to evolve resistance. This review aims to highlight the mechanism behind the multidrug resistance in A. baumannii and elucidate the utility of natural compounds as efflux pump inhibitors to deal with the infections caused by A. baumannii.

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