Screening putative transcriptional regulators in Francisella tularensis for attenuation using a multifaceted approach.

Mariah Cashbaugh, Joseph Horzempa, Shania Davis, Elio Delatore
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Abstract

Francisella tularensis is a gram-negative intracellular pathogen that produces a severe infection known as Tularemia. RNA-Seq data revealed that in the presence of erythrocytes, several genes encoding putative transcriptional regulators were modulated: FTL_0671, FTL_1199, and FTL_1665. Gene deletion strains were constructed using Francisella tularensis LVS. The objective of this project was to screen these gene deletion strains for attenuation. A multifaceted approach was utilized to determine the level of replication within macrophages and overall attenuation in vivo. Transforming the bacteria with green fluorescent protein allowed a plate reader to visualize and quantify intracellular growth in macrophages. However, inconsistencies in the data from these experiments led to the utilization of a gentamicin protection assay. This protocol provided a more accurate and reliable method of determining intracellular replication. The results of this experiment revealed a significant increase in the replication of FTL_1665 within macrophages. We sought to determine if these results would translate to hypervirulence in a live model. A chicken embryo infection model confirmed that FTL_1665 was significantly hypervirulent in vivo. In the future, we plan to experiment with the upregulation of the target gene to produce an attenuated strain. This gene may also serve as a potential drug target.
使用多方面的方法筛选土拉菌中可能的转录调节因子。
土拉菌是一种革兰氏阴性的细胞内病原体,可引起严重的土拉菌病感染。RNA-Seq数据显示,在红细胞的存在下,几个编码转录调节因子的基因被调节:FTL_0671, FTL_1199和FTL_1665。利用土拉菌菌株LVS构建基因缺失菌株。本项目的目的是筛选这些基因缺失菌株进行衰减。采用多方面的方法来确定巨噬细胞内的复制水平和体内的总体衰减。用绿色荧光蛋白转化细菌,使平板阅读器能够可视化和量化巨噬细胞的细胞内生长。然而,这些实验数据的不一致性导致了庆大霉素保护试验的使用。该方案提供了一个更准确和可靠的方法来确定细胞内复制。本实验结果显示巨噬细胞内FTL_1665的复制显著增加。我们试图确定这些结果是否会在活体模型中转化为高毒力。鸡胚感染模型证实了FTL_1665在体内具有显著的高毒力。在未来,我们计划通过上调目标基因的实验来产生减毒菌株。该基因也可能作为潜在的药物靶点。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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