Role of FTL_0445 in Francisella tularensis Susceptibility to Resazurin

Emily Young, Jordan Gibson, Siena McGovern, Emma Beatty, Claire Kelly, Kendall Souder, Justin Rice, Ryan J. Percifield, Donald A. Primerano, Nicole Garrison, Deanna M. Schmitt
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Abstract

Tularemia is a potentially fatal disease caused by the Category A bioterrorism agent Francisella tularensis. Aminoglycosides, fluoroquinolones, and tetracyclines can be used to treat tularemia; however, there is a high incidence of relapse and treatment failures when using these drugs. Furthermore, there is no tularemia vaccine licensed for use in the United States. Therefore, new antibiotics that target F. tularensis are being investigated. A novel family of resazurin-based antibiotics called resazomycins exhibit antimicrobial activity against F. tularensis and other Gram-negative pathogens including Neisseria gonorrhoeae. The mode of action of resazomycins has yet to be determined. To elucidate potential targets of resazurin (Rz), we screened for spontaneous Rz-resistant (Rzr) F. tularensis LVS mutants. Through the screen, 93% of all Rzr mutants sequenced contained mutations within the coding regions of FTL_0421, FTL_0895, and FTL_1504. In addition, 100% of all Rzr mutants sequenced contained a mutation approximately 50bp upstream of the gene FTL_0445. To understand the effect the mutation has on transcription of FTL_0445, RNA was isolated from wild-type LVS and an Rzr mutant (Rzr1). Quantitative reverse transcription PCR revealed FTL_0445 was upregulated in Rzr1 compared to wild-type LVS. To determine the role of FTL_0445 in Rz resistance, a FTL_0445 null deletion mutant is being generated in Rzr1 using standard molecular genetic techniques. Upon completion, the Rz sensitivity of the deletion mutant will be assessed using agar dilution assays. Understanding the role of FTL_0445 in Rz susceptibility would facilitate further development of these compounds as potential treatments for tularemia and gonorrhea.
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FTL_0445在土拉弗朗西斯菌对Resazurin敏感性中的作用
土拉菌病是一种由a类生物恐怖制剂土拉菌引起的潜在致命疾病。氨基糖苷类药物、氟喹诺酮类药物和四环素类药物可用于治疗兔热病;然而,在使用这些药物时,复发和治疗失败的发生率很高。此外,在美国还没有许可使用土拉菌病疫苗。因此,针对土拉菌的新抗生素正在研究中。一种以雷唑霉素为基础的新型抗生素雷唑霉素对土拉菌和其他革兰氏阴性病原体(包括淋病奈瑟菌)具有抗菌活性。雷唑霉素的作用方式尚未确定。为了阐明reazurin (Rz)的潜在靶点,我们筛选了自发Rz耐药(Rzr)土拉菌LVS突变体。通过筛选,93%测序的Rzr突变体包含FTL_0421、FTL_0895和FTL_1504编码区域内的突变。此外,测序的所有Rzr突变体中100%包含FTL_0445基因上游约50bp的突变。为了了解突变对FTL_0445转录的影响,我们从野生型LVS和Rzr突变体(Rzr1)中分离RNA。定量反转录PCR结果显示,与野生型LVS相比,Rzr1中FTL_0445表达上调。为了确定FTL_0445在Rz抗性中的作用,使用标准分子遗传学技术在Rzr1中产生了FTL_0445零缺失突变体。完成后,将使用琼脂稀释法评估缺失突变体的Rz敏感性。了解FTL_0445在Rz易感性中的作用将有助于进一步开发这些化合物作为土拉菌病和淋病的潜在治疗药物。
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