Intra-strain colony biofilm heterogeneity in uropathogenic Escherichia coli and the effect of the NlpI lipoprotein

IF 5.9 Q1 MICROBIOLOGY Biofilm Pub Date : 2024-07-17 DOI:10.1016/j.bioflm.2024.100214
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Abstract

Biofilm growth facilitates the interaction of uropathogenic Escherichia coli (UPEC) with the host environment. The extracellular polymeric substances (EPS) of UPEC biofilms are composed prominently of curli amyloid fiber and cellulose polysaccharide. When the organism is propagated as a colony biofilm on agar media, these macromolecules can generate pronounced macroscopic structures. Moreover, curli/cellulose associate tightly with Congo red, generating a characteristic pink-to-red staining pattern when the media is supplemented with this dye. Among different clinical isolates of UPEC, changes in the abundance of curli/cellulose can lead to diverse colony biofilm phenotypes on a strain-by-strain basis. Nevertheless, for any given isolate, these phenotypes are classically homogenous throughout the colony biofilm. Here, we report that a subset of clinical UPEC isolates display heterogenous ‘peppermint’ colony biofilms, with distinct pale and red subpopulations. Through isolation of these subpopulations and whole genome sequencing, we demonstrate various emergent mutations associated with the phenomenon, including within the gene encoding the outer membrane lipoprotein nlpI. Deletion of nlpI within independent strain-backgrounds increased biofilm rugosity, while its overexpression induced the peppermint phenotype. Upregulation of EPS-associated proteins and transcripts was likewise observed in the absence of nlpI. Overall, these results demonstrate that EPS elaboration in UPEC is impacted by nlpI. More broadly, this phenomenon of intra-strain colony biofilm heterogeneity may be leveraged as a tool to identify additional members within the broad collection of genes that regulate or otherwise affect biofilm formation.

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尿路致病性大肠埃希菌菌株内菌落生物膜异质性及 NlpI 脂蛋白的影响
生物膜的生长促进了尿路致病性大肠杆菌(UPEC)与宿主环境的相互作用。尿路致病性大肠杆菌生物膜的胞外高分子物质(EPS)主要由卷曲淀粉纤维和纤维素多糖组成。当该生物在琼脂培养基上以菌落生物膜的形式繁殖时,这些大分子可产生明显的宏观结构。此外,卷曲纤维/纤维素与刚果红紧密结合,在培养基中添加这种染料时,会产生特有的粉红色至红色染色模式。在不同的 UPEC 临床分离株中,凝集素/纤维素丰度的变化可导致不同菌株的菌落生物膜表型。然而,对于任何特定的分离株,这些表型在整个菌落生物膜中通常是同质的。在这里,我们报告了一部分临床 UPEC 分离物显示出异质性的 "薄荷 "菌落生物膜,其中有明显的淡红色亚群和红色亚群。通过分离这些亚群并进行全基因组测序,我们证明了与这种现象相关的各种突变,包括编码外膜脂蛋白 nlpI 的基因内的突变。在独立菌株背景中缺失 nlpI 会增加生物膜的凹凸度,而过量表达则会诱发薄荷表型。在 nlpI 缺失的情况下,同样观察到 EPS 相关蛋白和转录本的上调。总之,这些结果表明,UPEC 的 EPS 合成受到 nlpI 的影响。从更广泛的意义上讲,菌株内菌落生物膜异质性现象可作为一种工具,用于识别调控或以其他方式影响生物膜形成的大量基因中的其他成员。
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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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