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群体感应系统 LuxS/自动诱导物 2 和 Com 调节生物反应器中人类呼吸道细胞活体培养物中的肺炎链球菌生物膜。

Quorum-sensing systems LuxS/autoinducer 2 and Com regulate Streptococcus pneumoniae biofilms in a bioreactor with living cultures of human respiratory cells.

机构信息

Hubert Department of Global Health, Rollins School of Public Health, Emory University, Atlanta, Georgia, USA.

出版信息

Infect Immun. 2013 Apr;81(4):1341-53. doi: 10.1128/IAI.01096-12. Epub 2013 Feb 12.

DOI:10.1128/IAI.01096-12
PMID:23403556
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3639605/
Abstract

Streptococcus pneumoniae forms organized biofilms in the human upper respiratory tract that may play an essential role in both persistence and acute respiratory infection. However, the production and regulation of biofilms on human cells is not yet fully understood. In this work, we developed a bioreactor with living cultures of human respiratory epithelial cells (HREC) and a continuous flow of nutrients, mimicking the microenvironment of the human respiratory epithelium, to study the production and regulation of S. pneumoniae biofilms (SPB). SPB were also produced under static conditions on immobilized HREC. Our experiments demonstrated that the biomass of SPB increased significantly when grown on HREC compared to the amount on abiotic surfaces. Additionally, pneumococcal strains produced more early biofilms on lung cells than on pharyngeal cells. Utilizing the bioreactor or immobilized human cells, the production of early SPB was found to be regulated by two quorum-sensing systems, Com and LuxS/AI-2, since a mutation in either comC or luxS rendered the pneumococcus unable to produce early biofilms on HREC. Interestingly, while LuxS/autoinducer 2 (AI-2) regulated biofilms on both HREC and abiotic surfaces, Com control was specific for those structures produced on HREC. The biofilm phenotypes of strain D39-derivative ΔcomC and ΔluxS QS mutants were reversed by genetic complementation. Of note, SPB formed on immobilized HREC and incubated under static conditions were completely lysed 24 h postinoculation. Biofilm lysis was also regulated by the Com and LuxS/AI-2 quorum-sensing systems.

摘要

肺炎链球菌在上呼吸道形成有组织的生物膜,这可能在持续性和急性呼吸道感染中都起着至关重要的作用。然而,人们对生物膜在人体细胞上的产生和调控仍了解不足。在这项工作中,我们开发了一种带有人类呼吸道上皮细胞(HREC)活体培养物和持续营养供应的生物反应器,模拟了人类呼吸道上皮的微环境,用于研究肺炎链球菌生物膜(SPB)的产生和调控。我们还在固定化的 HREC 上进行了静态条件下的 SPB 生产。我们的实验表明,与在非生物表面相比,SPB 在 HREC 上生长时生物量显著增加。此外,肺炎链球菌菌株在肺细胞上产生的早期生物膜比在咽细胞上多。利用生物反应器或固定化的人类细胞,我们发现早期 SPB 的产生受到两种群体感应系统(Com 和 LuxS/AI-2)的调控,因为 comC 或 luxS 的突变使肺炎链球菌无法在 HREC 上产生早期生物膜。有趣的是,虽然 LuxS/自动诱导物 2(AI-2)调控了 HREC 和非生物表面上的生物膜,但 Com 控制仅针对在 HREC 上产生的结构。D39 衍生的ΔcomC 和ΔluxS QS 突变体的生物膜表型通过遗传互补得到逆转。值得注意的是,在接种后 24 小时,固定化 HREC 上形成的、在静态条件下孵育的生物膜完全被裂解。生物膜裂解也受到 Com 和 LuxS/AI-2 群体感应系统的调控。

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