Novel transcriptional regulator OxtR1 regulates potential ferrodoxin in response to oxygen stress in Treponema denticola

IF 2.5 3区 生物学 Q3 MICROBIOLOGY
Yumi Numata , Yuichiro Kikuchi , Toru Sato , Kazuko Okamoto-Shibayama , Yutaro Ando , Yuri Miyai-Murai , Eitoyo Kokubu , Kazuyuki Ishihara
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引用次数: 0

Abstract

Objective

Treponema denticola has been strongly implicated in the pathogenesis of chronic periodontitis. Previously, we reported that the potential transcriptional regulator TDE_0259 (oxtR1) is upregulated in the bacteriocin ABC transporter gene-deficient mutant. OxtR1 may regulate genes to adapt to environmental conditions during colonization; however, the exact role of the gene in T. denticola has not been reported. Therefore, we investigated its function using an oxtR1-deficient mutant.

Methods

The growth rates of the wild-type and oxtR1 mutant were monitored under anaerobic conditions; their antibacterial agent susceptibility and gene expression were assessed using a liquid dilution assay and DNA microarray, respectively. An electrophoretic mobility shift assay was performed to investigate the binding of OxtR1 to promoter regions.

Results

The growth rate of the bacterium was accelerated by the inactivation of oxtR1, and the mutant exhibited an increased minimum inhibitory concentration against ofloxacin. We observed a relative increase in the expression of genes associated with potential ferrodoxin (TDE_0260), flavodoxin, ABC transporters, heat-shock proteins, DNA helicase, iron compounds, and lipoproteins in the mutant. OxtR1 expression increased upon oxygen exposure, and oxtR1 complementation suppressed the expression of potential ferrodoxin. Our findings also suggested that OxtR1 binds to a potential promoter region of the TDE_0259–260 operon. Moreover, the mutant showed a marginal yet significantly faster growth rate than the wild-type strain under H2O2 exposure.

Conclusion

The oxygen-sensing regulator OxtR1 plays a role in regulating the expression of a potential ferrodoxin, which may contribute to the response of T. denticola to oxygen-induced stress.

新型转录调控因子 OxtR1 在牙孢子菌对氧胁迫的反应中调控潜在的阿铁毒素
目的牙孢子虫(Treponema denticola)与慢性牙周炎的发病机制密切相关。此前,我们报道了潜在的转录调节因子 TDE_0259(otxtR1)在细菌素 ABC 转运体基因缺陷突变体中上调。OxtR1 可能会在定殖过程中调控基因以适应环境条件;但该基因在牙疫杆菌中的确切作用尚未见报道。方法在厌氧条件下监测野生型和 OxtR1 突变体的生长速度;分别使用液体稀释法和 DNA 微阵列评估它们对抗菌剂的敏感性和基因表达。结果 OxtR1 失活后,细菌的生长速度加快,突变体对氧氟沙星的最小抑菌浓度增加。我们观察到,在突变体中,与潜在的河豚毒素(TDE_0260)、黄独素、ABC转运体、热休克蛋白、DNA螺旋酶、铁化合物和脂蛋白相关的基因表达量相对增加。暴露于氧气时,OxtR1 的表达增加,而 OxtR1 的互补抑制了潜在铁毒素的表达。我们的研究结果还表明,OxtR1 与 TDE_0259-260 操作子的潜在启动子区域结合。结论 氧传感调节因子 OxtR1 在调节潜在铁线毒素的表达中发挥作用,这可能有助于牙疫菌对氧诱导胁迫的响应。
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来源期刊
Anaerobe
Anaerobe 生物-微生物学
CiteScore
5.20
自引率
8.70%
发文量
137
审稿时长
76 days
期刊介绍: Anaerobe is essential reading for those who wish to remain at the forefront of discoveries relating to life processes of strictly anaerobes. The journal is multi-disciplinary, and provides a unique forum for those investigating anaerobic organisms that cause infections in humans and animals, as well as anaerobes that play roles in microbiomes or environmental processes. Anaerobe publishes reviews, mini reviews, original research articles, notes and case reports. Relevant topics fall into the broad categories of anaerobes in human and animal diseases, anaerobes in the microbiome, anaerobes in the environment, diagnosis of anaerobes in clinical microbiology laboratories, molecular biology, genetics, pathogenesis, toxins and antibiotic susceptibility of anaerobic bacteria.
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