革兰氏阴性细菌中的 HME、NFE 和 HAE-1 外排泵:一种全面的系统发育和生态学方法。

IF 5.1 Q1 ECOLOGY ISME communications Pub Date : 2024-01-10 eCollection Date: 2024-01-01 DOI:10.1093/ismeco/ycad018
Josselin Bodilis, Olwen Simenel, Serge Michalet, Elisabeth Brothier, Thibault Meyer, Sabine Favre-Bonté, Sylvie Nazaret
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摘要

三个主要的抗性-结节-细胞分裂(RND)外排泵家族(重金属外排泵[HME]、结节因子外排泵[NFE]和两性/两性外排泵-1 [HAE-1])几乎只存在于革兰氏阴性细菌中,在抗金属和细菌杀菌剂(包括抗生素)方面发挥着重要作用。尽管它们具有重大的社会意义,但人们对它们的进化历史和环境功能却知之甚少。在这里,我们对负责这些外排泵底物特异性的亚基 RND 渗透酶进行了全面的系统发育和生态学研究。从 920 个具有代表性的革兰氏阴性细菌基因组中,我们发现了 6205 个编码 RND 渗透酶的基因,平均每个基因组有 6.7 个基因。参与金属抗性的 HME 家族对应于一个支系(占所有 RND 泵的 21.8%),但 HAE-1 和 NFE 家族在支系间有重叠分布。我们建议将 HAE-1 家族限制为两个系统发育上的姊妹支系,占所有 RND 泵的 41.8%,并将大多数参与多药耐药性的 RND 泵归为一类。与基因组相关的元数据、对以前发表的元基因组的分析以及定量聚合酶链式反应(qPCR)分析证实,在金属污染环境中,编码 HME 渗透酶的基因显著增加。有趣的是,编码 HAE-1 渗透酶的基因在根圈中特别多,这可能与它们在根定植中的作用有关。此外,我们还发现,编码这些 HAE-1 渗透酶的基因在海洋环境中的含量明显较低,而新提出的 HAE-4 家族的渗透酶则在海洋菌株的基因组中占主导地位。这些发现强调了 RND 泵在细菌抗性和适应不同生态位方面的关键作用。
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HME, NFE, and HAE-1 efflux pumps in Gram-negative bacteria: a comprehensive phylogenetic and ecological approach.

The three primary resistance-nodulation-cell division (RND) efflux pump families (heavy metal efflux [HME], nodulation factor exporter [NFE], and hydrophobe/amphiphile efflux-1 [HAE-1]) are almost exclusively found in Gram-negative bacteria and play a major role in resistance against metals and bacterial biocides, including antibiotics. Despite their significant societal interest, their evolutionary history and environmental functions are poorly understood. Here, we conducted a comprehensive phylogenetic and ecological study of the RND permease, the subunit responsible for the substrate specificity of these efflux pumps. From 920 representative genomes of Gram-negative bacteria, we identified 6205 genes encoding RND permeases with an average of 6.7 genes per genome. The HME family, which is involved in metal resistance, corresponds to a single clade (21.8% of all RND pumps), but the HAE-1 and NFE families had overlapping distributions among clades. We propose to restrict the HAE-1 family to two phylogenetic sister clades, representing 41.8% of all RND pumps and grouping most of the RND pumps involved in multidrug resistance. Metadata associated with genomes, analyses of previously published metagenomes, and quantitative Polymerase Chain Reaction (qPCR) analyses confirmed a significant increase in genes encoding HME permeases in metal-contaminated environments. Interestingly, and possibly related to their role in root colonization, genes encoding HAE-1 permeases were particularly abundant in the rhizosphere. In addition, we found that the genes encoding these HAE-1 permeases are significantly less abundant in marine environments, whereas permeases of a new proposed HAE-4 family are predominant in the genomes of marine strains. These findings emphasize the critical role of the RND pumps in bacterial resistance and adaptation to diverse ecological niches.

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