Mycobacteriophage cell binding proteins for the capture of mycobacteria

D. Arutyunov, U. Singh, Amr M. El-Hawiet, H. Seckler, Sanaz Nikjah, M. Joe, Yu Bai, T. Lowary, John S. Klassen, S. Evoy, C. Szymanski
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引用次数: 11

Abstract

Slow growing Mycobacterium avium subsp. paratuberculosis (MAP) causes a deadly condition in cattle known as Johne's disease where asymptomatic carriers are the major source of disease transmission. MAP was also shown to be associated with chronic Crohn's disease in humans. Mycobacterium smegmatis is a model mycobacterium that can cause opportunistic infections in a number of human tissues and, rarely, a respiratory disease. Currently, there are no rapid, culture-independent, reliable and inexpensive tests for the diagnostics of MAP or M. smegmatis infections. Bacteriophages are viruses producing a number of proteins that effectively and specifically recognize the cell envelopes of their bacterial hosts. We demonstrate that the mycobacterial phage L5 minor tail protein Gp6 and lysin Gp10 are useful tools for the rapid capture of mycobacteria. Immobilized Gp10 was able to bind both MAP and M. smegmatis cells whereas Gp6 was M. smegmatis specific. Neither of the 2 proteins was able to capture E. coli, salmonella, campylobacter or Mycobacterium marinum cells. Gp6 was detected previously as a component of the phage particle and shows no homology to proteins with known function. Therefore, electrospray ionization mass spectrometry was used to determine whether recombinant Gp6 could bind to a number of chemically synthesized fragments of mycobacterial surface glycans. These findings demonstrate that mycobacteriophage proteins could be used as a pathogen capturing platform that can potentially improve the effectiveness of existing diagnostic methods.
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用于捕获分枝杆菌的噬菌体细胞结合蛋白
生长缓慢的鸟分枝杆菌亚种。副结核在牛中引起一种称为约翰氏病的致命疾病,其中无症状携带者是疾病传播的主要来源。MAP也被证明与人类慢性克罗恩病有关。耻垢分枝杆菌是一种模式分枝杆菌,可在许多人体组织中引起机会性感染,很少引起呼吸道疾病。目前,没有快速、不依赖培养物、可靠和廉价的检测方法来诊断MAP或耻垢支原体感染。噬菌体是一种产生大量蛋白质的病毒,这些蛋白质可以有效地、特异性地识别其细菌宿主的细胞包膜。我们证明了分枝杆菌噬菌体L5小尾蛋白Gp6和裂解素Gp10是快速捕获分枝杆菌的有用工具。固定化Gp10能够结合MAP和耻毛分枝杆菌细胞,而Gp6对耻毛分枝杆菌具有特异性。这两种蛋白都不能捕获大肠杆菌、沙门氏菌、弯曲杆菌和海洋分枝杆菌细胞。Gp6以前作为噬菌体颗粒的一个组成部分被检测到,并且与已知功能的蛋白质没有同源性。因此,我们使用电喷雾电离质谱法来确定重组Gp6是否可以与一些化学合成的分枝杆菌表面聚糖片段结合。这些发现表明,分枝噬菌体蛋白可以用作病原体捕获平台,可以潜在地提高现有诊断方法的有效性。
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