Gram-negative bacteria act as a reservoir for aminoglycoside antibiotics that interact with host factors to enhance bacterial killing in a mouse model of pneumonia.

FEMS microbes Pub Date : 2022-05-13 eCollection Date: 2022-01-01 DOI:10.1093/femsmc/xtac016
Christiaan D M Wijers, Ly Pham, Martin V Douglass, Eric P Skaar, Lauren D Palmer, Michael J Noto
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Abstract

In vitro exposure of multiple Gram-negative bacteria to an aminoglycoside (AG) antibiotic has previously been demonstrated to result in bacterial alterations that interact with host factors to suppress Gram-negative pneumonia. However, the mechanisms resulting in suppression are not known. Here, the hypothesis that Gram-negative bacteria bind and retain AGs, which are introduced into the lung and interact with host defenses to affect bacterial killing, was tested. Following in vitro exposure of one of several, pathogenic Gram-negative bacteria to the AG antibiotics kanamycin or gentamicin, AGs were detected in bacterial cell pellets (up to 208 μg/mL). Using inhibitors of AG binding and internalization, the bacterial outer membrane was implicated as the predominant kanamycin and gentamicin reservoir. Following intranasal administration of gentamicin-bound bacteria or gentamicin solution at the time of infection with live, AG-naïve bacteria, gentamicin was detected in the lungs of infected mice (up to 8 μg/g). Co-inoculation with gentamicin-bound bacteria resulted in killing of AG-naïve bacteria by up to 3-log10, mirroring the effects of intranasal gentamicin treatment. In vitro killing of AG-naïve bacteria mediated by kanamycin-bound bacteria required the presence of detergents or pulmonary surfactant, suggesting that increased bacterial killing inside the murine lung is facilitated by the detergent component of pulmonary surfactant. These findings demonstrate that Gram-negative bacteria bind and retain AGs that can interact with host-derived pulmonary surfactant to enhance bacterial killing in the lung. This may help explain why AGs appear to have unique efficacy in the lung and might expand their clinical utility.

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在小鼠肺炎模型中,革兰氏阴性细菌是氨基糖苷类抗生素的储存库,氨基糖苷类抗生素与宿主因素相互作用,增强了对细菌的杀伤力。
以前曾有研究表明,多种革兰氏阴性菌体外暴露于氨基糖苷类抗生素(AG)会导致细菌发生改变,从而与宿主因素相互作用,抑制革兰氏阴性肺炎。然而,导致抑制的机制尚不清楚。在这里,我们对革兰氏阴性细菌结合并保留 AGs 的假设进行了测试,AGs 被引入肺部后与宿主防御系统相互作用,从而影响细菌的杀伤力。将几种致病性革兰氏阴性细菌中的一种体外暴露于AG抗生素卡那霉素或庆大霉素后,在细菌细胞团中检测到了AGs(高达208 μg/mL)。利用 AG 结合和内化抑制剂,细菌外膜被认为是卡那霉素和庆大霉素的主要储存库。在感染未感染 AG 的活细菌时,经鼻内注射与庆大霉素结合的细菌或庆大霉素溶液后,可在受感染小鼠的肺部检测到庆大霉素(高达 8 μg/g)。与结合庆大霉素的细菌联合接种可杀死 AG-幼稚细菌达 3-log10,这与鼻内庆大霉素治疗的效果相同。卡那霉素结合细菌体外杀灭 AG-naïve细菌需要去垢剂或肺表面活性物质的存在,这表明肺表面活性物质中的去垢剂成分有助于增加小鼠肺内细菌的杀灭。这些研究结果表明,革兰氏阴性细菌能结合并保留AGs,而AGs能与宿主来源的肺表面活性物质相互作用,从而增强肺内的细菌杀伤力。这可能有助于解释为什么AGs在肺部似乎具有独特的功效,并可能扩大其临床用途。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
3.30
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