D-蛋氨酸诱导的 DN 酶可驱散已形成的伪马勒氏伯克霍尔德菌生物膜并提高对头孢他啶的敏感性

IF 5.9 Q1 MICROBIOLOGY Biofilm Pub Date : 2024-07-08 DOI:10.1016/j.bioflm.2024.100213
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引用次数: 0

摘要

伯克霍尔德氏假丝酵母菌的生物膜与致病机理、抗生素耐药性和瓜虫病复发有关,给临床治疗带来了挑战。人们对使用生物膜分散剂作为生物膜相关感染的辅助治疗方法越来越感兴趣。蛋氨酸(Met)可诱导细菌产生 DNase,从而降解细胞外 DNA(eDNA)并驱散细菌生物膜,因此有望成为一种抗生物膜剂。在这项研究中,我们研究了 0.05-50 μM D-Met 和 L-Met 对临床分离株假丝酵母菌 H777 24 小时建立的生物膜的影响。我们的研究结果表明,D-Met 和 L-Met 能够以非剂量依赖的方式驱散已形成的生物膜,并伴随着 eDNA 的耗竭。实时 PCR 分析进一步发现,在 0.05 μM D-Met 的作用下,细菌核酸酶基因(包括 recJ、eddB、nth、xth 和 recD)上调。同样,假丝酵母菌中的 recJ 和 eddB 也在 0.05 μM L-Met 的存在下上调。值得注意的是,D-Met 提高了假丝酵母菌 H777 生物膜细胞对头孢他啶的敏感性。我们的研究结果表明,蛋氨酸的补充与核酸酶基因的上调之间存在相关性,核酸酶基因的上调会导致 eDNA 的耗竭和预先形成的假丝酵母菌 H777 生物膜的扩散。这增强了生物膜细胞对头孢唑肟的敏感性,为抗击与生物膜相关的假丝酵母菌感染带来了希望。
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d-Methionine-induced DNases disperse established Burkholderia pseudomallei biofilms and promotes ceftazidime susceptibility

Burkholderia pseudomallei biofilm is correlated with pathogenesis, antibiotic resistance, and relapsing cases of melioidosis, leading to challenges in clinical management. There is increasing interest in employing biofilm dispersal agents as adjunctive treatments for biofilm-associated infections. Methionine (Met) has shown promise as an anti-biofilm agent by inducing bacterial DNase production, resulting in the degradation of extracellular DNA (eDNA) and dispersion of bacterial biofilm. In this study, we investigated the impact of 0.05–50 μM D-Met and L-Met on the 24-h established biofilm of a clinical isolate, B. pseudomallei H777. Our findings revealed the ability of D-Met and L-Met to disperse the established biofilm in a non-dose-dependent manner accompanied by eDNA depletion. Real-time PCR analysis further identified an up-regulation of bacterial nuclease genes, including recJ, eddB, nth, xth, and recD, in the presence of 0.05 μM D-Met. Similarly, recJ and eddB in B. pseudomallei were up-regulated in response to the presence of 0.05 μM L-Met. Notably, D-Met enhanced the susceptibility of B. pseudomallei H777 biofilm cells to ceftazidime. Our findings indicate a correlation between methionine supplementation and the up-regulation of nuclease genes, leading to eDNA depletion and the dispersal of preformed B. pseudomallei H777 biofilm. This enhances the susceptibility of biofilm cells to ceftazidime, showing promise in combating biofilm-associated B. pseudomallei infections.

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来源期刊
Biofilm
Biofilm MICROBIOLOGY-
CiteScore
7.50
自引率
1.50%
发文量
30
审稿时长
57 days
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