Bioenergetics of simultaneous oxygen and nitrate respiration and nitric oxide production in a Pseudomonas aeruginosa agar colony biofilm

IF 5.9 Q1 MICROBIOLOGY Biofilm Pub Date : 2024-02-10 DOI:10.1016/j.bioflm.2024.100181
Paul Stoodley , Nina Toelke , Carsten Schwermer , Dirk de Beer
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Abstract

Pseudomonas aeruginosa is a biofilm forming pathogen commonly associated with infection of the cystic fibrosis (CF) lung, chronic wounds and indwelling medical devices. P. aeruginosa is a facultative aerobe that can use nitrate (NO3) found in healthy and infected tissues and body fluids to generate energy through denitrification. Further, P. aeruginosa the expression of denitrification genes has been found in specimens from people with CF. The main aim of this study was to determine the relative energy contribution of oxygen (O2) respiration and denitrification in single Pseudomonas aeruginosa PAO1 biofilm colonies under different O2 concentrations to estimate the possible relative importance of these metabolic processes in the context of biofilm infections. We showed that the used strain PAO1 in biofilms denitrified with nitrous oxide (N2O), and not nitrogen (N2), as the end product in our incubations. From simultaneous O2 and N2O microprofiles measured with high spatial resolution by microsensors in agar colony biofilms under air, N2 and pure O2, the rates of aerobic respiration and denitrification were calculated and converted to ATP production rates. Denitrification occurred both in the oxic and anoxic zones, and became increasingly dominant with decreasing O2 concentrations. At O2 concentrations characteristic for tissues and wounds (20–60 μM), denitrification was responsible for 50% of the total energy conservation in the biofilm. In addition the formation of nitric oxide (NO), a precursor of N2O and an important regulator of many cellular processes, was strongly influenced by the local O2 concentrations. NO production was inhibited under pure O2, present under anoxia (∼1 μM) and remarkably high (up to 6 μM) under intermediate O2 levels, which can be found in infected tissues. Possible impacts of such NO levels on both the host and the biofilm bacteria are discussed.

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铜绿假单胞菌琼脂菌落生物膜中同时进行氧气和硝酸盐呼吸以及产生一氧化氮的生物能
铜绿假单胞菌是一种形成生物膜的病原体,通常与囊性纤维化(CF)肺部、慢性伤口和留置医疗器械感染有关。铜绿假单胞菌是一种兼性气态微生物,可利用健康和受感染组织及体液中的硝酸盐(NO3-)通过反硝化作用产生能量。此外,在 CF 患者的标本中也发现了铜绿假单胞菌反硝化基因的表达。本研究的主要目的是确定不同氧气浓度下单个铜绿假单胞菌 PAO1 生物膜菌落中氧(O2)呼吸和反硝化作用的相对能量贡献,以估计这些代谢过程在生物膜感染中可能具有的相对重要性。我们的研究表明,生物膜中使用的 PAO1 菌株在培养过程中的最终产物是一氧化二氮(N2O),而不是氮气(N2)。在空气、N2 和纯 O2 条件下,通过琼脂菌落生物膜中的微型传感器以高空间分辨率同时测量 O2 和 N2O 的微轨迹,计算出了有氧呼吸和反硝化的速率,并将其转换为 ATP 生成速率。反硝化作用在缺氧区和缺氧区均有发生,并随着氧气浓度的降低而变得越来越主要。在组织和伤口特有的氧气浓度(20-60 μM)下,反硝化作用占生物膜总能量守恒的 50%。此外,一氧化氮(NO)的形成也深受当地氧气浓度的影响,一氧化氮是一氧化二氮的前体,也是许多细胞过程的重要调节剂。一氧化氮的产生在纯氧条件下受到抑制,在缺氧条件下出现(1 μM),而在中间氧水平(感染组织中可能存在)下则明显较高(高达 6 μM)。本文讨论了这种 NO 水平对宿主和生物膜细菌可能产生的影响。
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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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