法定量传感和营养传感调节因子对铜绿假单胞菌生物膜发展的组合控制

IF 5 2区 生物学 Q1 MICROBIOLOGY
mSystems Pub Date : 2024-09-17 Epub Date: 2024-08-14 DOI:10.1128/msystems.00372-24
Gong Chen, Georgia Fanouraki, Aathmaja Anandhi Rangarajan, Bradford T Winkelman, Jared T Winkelman, Christopher M Waters, Sampriti Mukherjee
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引用次数: 0

摘要

人类病原体铜绿假单胞菌是医院获得性感染的主要病因,它在各种生物和非生物环境中栖息并形成称为生物膜的无柄抗生素群落。在这项研究中,我们考察了两种全球感官信号通路--RhlR 法定量感应系统和 CbrA/CbrB 营养适应系统--是如何交织在一起控制生物膜的发展的。以前的研究表明,这两个系统各自抑制生物膜的形成。在这里,我们使用生物膜分析、RNA-seq 和报告分析来探讨通过 RhlR 和 CbrA 的信息流对生物膜发育的综合影响。我们发现,ΔrhlRΔcbrA 双突变体表现出的生物膜形态和相关转录反应与野生型、亲代 ΔrhlR 和 ΔcbrA 突变体不同,这表明每种信号通路都是共显性的。ΔrhlRΔcbrA突变体获得了抑制突变,允许生物膜扩展;这些突变映射到了crc基因,导致碳代谢抑制蛋白Crc功能丧失。此外,RhlR 和 CbrA 的共同缺失导致 Crc 拮抗剂小 RNA CrcZ 的丰度急剧下降。因此,CrcZ 是定量和营养感应线索的分子汇聚点。我们发现,在没有 CrcZ 拮抗的情况下,Crc 会促进生物膜基质成分--Pel 外多糖、CupB 和 CupC 纤毛的表达。因此,本研究发现了营养适应与法定量感应之间的调控联系,这对抗生纤膜靶向策略具有潜在意义。生物膜的发展受各种环境刺激的控制,这些刺激被解码并转化为适当的细胞反应。为了了解来自两种不同刺激的信息是如何整合的,我们以人类病原体铜绿假单胞菌的生物膜形成为模型,研究了两种全球感官信号通路--定量感应和营养适应--的交叉点。生物膜细胞的全局转录组学和报告分析表明,每种途径对生物膜的调控都是平行的,而这两种调控都汇聚在碳代谢物抑制蛋白 Crc 的小 RNA 拮抗剂的丰度上。我们发现了 Crc 的新作用,它能调节生物膜基质成分的表达以应对环境。这些结果拓展了我们对铜绿微囊藻成功发展生物膜群落的遗传调控策略的理解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Combinatorial control of Pseudomonas aeruginosa biofilm development by quorum-sensing and nutrient-sensing regulators.

The human pathogen Pseudomonas aeruginosa, a leading cause of hospital-acquired infections, inhabits and forms sessile antibiotic-resistant communities called biofilms in a wide range of biotic and abiotic environments. In this study, we examined how two global sensory signaling pathways-the RhlR quorum-sensing system and the CbrA/CbrB nutritional adaptation system-intersect to control biofilm development. Previous work has shown that individually these two systems repress biofilm formation. Here, we used biofilm analyses, RNA-seq, and reporter assays to explore the combined effect of information flow through RhlR and CbrA on biofilm development. We find that the ΔrhlRΔcbrA double mutant exhibits a biofilm morphology and an associated transcriptional response distinct from wildtype and the parent ΔrhlR and ΔcbrA mutants indicating codominance of each signaling pathway. The ΔrhlRΔcbrA mutant gains suppressor mutations that allow biofilm expansion; these mutations map to the crc gene resulting in loss of function of the carbon catabolite repression protein Crc. Furthermore, the combined absence of RhlR and CbrA leads to a drastic reduction in the abundance of the Crc antagonist small RNA CrcZ. Thus, CrcZ acts as the molecular convergence point for quorum- and nutrient-sensing cues. We find that in the absence of antagonism by CrcZ, Crc promotes the expression of biofilm matrix components-Pel exopolysaccharide, and CupB and CupC fimbriae. Therefore, this study uncovers a regulatory link between nutritional adaption and quorum sensing with potential implications for anti-biofilm targeting strategies.IMPORTANCEBacteria often form multicellular communities encased in an extracytoplasmic matrix called biofilms. Biofilm development is controlled by various environmental stimuli that are decoded and converted into appropriate cellular responses. To understand how information from two distinct stimuli is integrated, we used biofilm formation in the human pathogen Pseudomonas aeruginosa as a model and studied the intersection of two global sensory signaling pathways-quorum sensing and nutritional adaptation. Global transcriptomics on biofilm cells and reporter assays suggest parallel regulation of biofilms by each pathway that converges on the abundance of a small RNA antagonist of the carbon catabolite repression protein, Crc. We find a new role of Crc as it modulates the expression of biofilm matrix components in response to the environment. These results expand our understanding of the genetic regulatory strategies that allow P. aeruginosa to successfully develop biofilm communities.

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来源期刊
mSystems
mSystems Biochemistry, Genetics and Molecular Biology-Biochemistry
CiteScore
10.50
自引率
3.10%
发文量
308
审稿时长
13 weeks
期刊介绍: mSystems™ will publish preeminent work that stems from applying technologies for high-throughput analyses to achieve insights into the metabolic and regulatory systems at the scale of both the single cell and microbial communities. The scope of mSystems™ encompasses all important biological and biochemical findings drawn from analyses of large data sets, as well as new computational approaches for deriving these insights. mSystems™ will welcome submissions from researchers who focus on the microbiome, genomics, metagenomics, transcriptomics, metabolomics, proteomics, glycomics, bioinformatics, and computational microbiology. mSystems™ will provide streamlined decisions, while carrying on ASM''s tradition of rigorous peer review.
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