持留菌及其对微生物膜的耐受性影响研究进展

持留菌（persisters）是细菌种群中所占比例不到0.1%的一类特殊亚群,具有与种群内普通菌、抗性突变菌所不同的特征,其形成机制复杂,不易分离培养.持留菌可通过“休眠-生长-增殖”应对逆境的胁迫,维持自身生存和菌体结构稳定,在生物膜的多药耐受性与多金属耐性中发挥着重要作用,对于维持微生物群落结构稳定具有重要意义.本文从持留菌的研究历程、特点、基因调控机制及其对微生物膜的耐药性与多金属耐性的影响等方面进行了综述,并对今后的研究方向进行了展望.     

A demonstration of athermal effects of continuous microwave irradiation on the growth and antibiotic sensitivity of Pseudomonas aeruginosa PAO1

Stress, caused by exposure to microwaves (2.45 GHz) at constant temperature (37 ± 0.5°C), alters the growth profile of Pseudomonas aeruginosa PAO1. In the absence of microwave treatment a simple, highly reproducible growth curve was observed over 24 h or more. Microwave treatment caused no reduction in growth during the first 6 h, but at a later stage (>12 h) the growth was markedly different to the controls. Secondary growth, typical of the presence of persisters clearly became apparent, as judged by both the dissolved oxygen and the cell density profiles. These treated cells showed distinct morphological changes, but on regrowth these cells reverted to normal. The microwave induced persisters were subject to antibiotic challenge (tobramycin) and showed increased sensitivity when compared to the unstressed planktonic cells. This is in marked contrast to antibiotic induced persisters which show increased resistance. This provides evidence for both a nonthermal effect of microwaves and a previously undescribed route to a novel form of antibiotic susceptible persister cells. © 2016 American Institute of Chemical Engineers Biotechnol. Prog., 33:37–44, 2017     

细菌毒素-抗毒素系统的功能

毒素-抗毒素(Toxin-Antitoxin,TA)系统广泛存在于原核生物和古细菌的染色体和质粒中。此系统由2个共表达的基因组成,分别编码稳定的毒素蛋白和易降解的抗毒素,毒素通常发挥毒性作用抑制细菌生长,而抗毒素则可中和毒性,二者相互作用对细菌生长状态起精密调节作用。根据TA的组成和抗毒素的性质,目前已经发现有6型TA,这些TA系统在细菌中发挥的作用一直是近年来学者们研究的热点,文中对细菌TA的功能研究进展进行了综述。     

ATP-Dependent Dynamic Protein Aggregation Regulates Bacterial Dormancy Depth Critical for Antibiotic Tolerance

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细菌持留与抗生素表型耐药机制

持留菌是细菌群体中一小部分具有表型耐药的细菌。自1944年被发现后,近几十年来因其在慢性持续性感染和生物膜感染中的重要作用而得到越来越多的重视。已有的研究结果表明,细菌持留的机理复杂,涉及的相关信号通路有毒素-抗毒素系统、细胞能量代谢及蛋白核酸合成等生理状态的降低、DNA保护修复系统、蛋白酶系统、反式翻译、外排泵系统等。虽然不同细菌的持留机理有一定的相似性和保守性,但不同细菌的持留机制也存在差异,如毒素-抗毒素系统在大肠埃希菌(Escherichia coli)中的过度激活可导致持留菌增加,但在金黄色葡萄球菌(Staphylococcus aureus)中却并无相同作用。本文从持留菌的研究历史出发,综述了当前对革兰氏阴性菌和阳性菌的持留机制方面的研究进展,同时探讨了在持留菌相关感染疾病方面的治疗策略,以期为更好地解决持留菌带来的问题,缩短治疗时间提供新的思路。     

Colorectal Cancer Cells Enter a Diapause-like DTP State to Survive Chemotherapy

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