Sansom Fiona M, Newton Hayley J, Crikis Sandra, Cianciotto Nicholas P, Cowan Peter J, d'Apice Anthony J F, Hartland Elizabeth L
Australian Bacterial Pathogenesis Program, Department of Microbiology, Monash University, Victoria 3800, Australia.
Cell Microbiol. 2007 Aug;9(8):1922-35. doi: 10.1111/j.1462-5822.2007.00924.x. Epub 2007 Mar 26.
As part of its pathogenesis, Legionella pneumophila persists within human alveolar macrophages in non-acidified organelles that do not mature into phagolysosomes. Two L. pneumophila genes, lpg0971 and lpg1905, are predicted to encode ecto-nucleoside triphosphate diphosphohydrolases (ecto-NTPDases) that share sequence similarity with human CD39/NTPDase1. The predicted products possess five apyrase conserved domains that are typical of eukaryotic ecto-NTPDases. In this study, we found that an lpg1905 mutant was recovered in lower numbers from macrophages, alveolar epithelial cells and the amoeba, Hartmannella vermiformis compared with wild-type L. pneumophila and an lpg0971 mutant. Similar to human CD39, recombinant purified Lpg1905 exhibited ATPase and ADPase activity and possessed the ability to inhibit platelet aggregation. Mutation of a conserved Glu159 residue that is essential for CD39 activity inhibited ATPase and ADPase activity of Lpg1905. In addition, enzyme activity was inhibited in the presence of the specific ecto-NTPDase inhibitor, ARL67156. The entry and replication defect of the lpg1905 mutant was reversed upon transcomplementation with lpg1905 but not lpg1905E159A encoding an enzymatically inactive form of the protein. Although several protozoan parasites exhibit ecto-NTPDase activity, including Toxoplasma gondii, Trichomonas vaginalis and Trypanosoma cruzi, this is the first time a bacterial ecto-NTPDase has been implicated in virulence.
作为其致病机制的一部分,嗜肺军团菌在未酸化的细胞器内持续存在于人类肺泡巨噬细胞中,这些细胞器不会成熟为吞噬溶酶体。预测嗜肺军团菌的两个基因lpg0971和lpg1905编码胞外核苷三磷酸二磷酸水解酶(ecto-NTPDases),它们与人类CD39/NTPDase1具有序列相似性。预测的产物具有五个腺苷三磷酸双磷酸酶保守结构域,这是真核生物胞外核苷三磷酸二磷酸水解酶的典型特征。在本研究中,我们发现与野生型嗜肺军团菌和lpg0971突变体相比,从巨噬细胞、肺泡上皮细胞和变形虫——蠕虫状哈特曼氏阿米巴中回收的lpg1905突变体数量较少。与人类CD39相似,重组纯化的Lpg1905表现出ATP酶和ADP酶活性,并具有抑制血小板聚集的能力。对CD39活性至关重要的保守Glu159残基的突变抑制了Lpg1905的ATP酶和ADP酶活性。此外,在存在特异性胞外核苷三磷酸二磷酸水解酶抑制剂ARL67156的情况下,酶活性受到抑制。用lpg1905而不是编码该蛋白无酶活性形式的lpg1905E159A进行反式互补后,lpg1905突变体的进入和复制缺陷得到了逆转。尽管几种原生动物寄生虫表现出胞外核苷三磷酸二磷酸水解酶活性,包括刚地弓形虫、阴道毛滴虫和克氏锥虫,但这是首次发现细菌胞外核苷三磷酸二磷酸水解酶与毒力有关。
