Lin Yi-Pin, Chen Qiang, Ritchie Jennifer A, Dufour Nicholas P, Fischer Joshua R, Coburn Jenifer, Leong John M
Department of Molecular Biology and Microbiology, Tufts University School of Medicine, 136 Harrison Ave, Boston, MA, 02111, USA.
Division of Infectious Disease, and Center for Infectious Disease Research, Medical College of Wisconsin, 8701 Watertown Plank Rd., Milwaukee, WI, 53226, USA.
Cell Microbiol. 2015 Jun;17(6):860-75. doi: 10.1111/cmi.12407. Epub 2015 Jan 24.
Microbial pathogens that colonize multiple tissues commonly produce adhesive surface proteins that mediate attachment to cells and/or extracellular matrix in target organs. Many of these 'adhesins' bind to multiple ligands, complicating efforts to understand the role of each ligand-binding activity. Borrelia burgdorferi, the causative agent of Lyme disease, produces BBK32, first identified as a fibronectin-binding adhesin that promotes skin and joint colonization. BBK32 also binds to glycosaminoglycan (GAG), which, like fibronectin is ubiquitously present on cell surfaces. To determine which binding activity is relevant for BBK32-promoted infectivity, we generated a panel of BBK32 truncation and internal deletion mutants, and identified variants specifically defective for binding to either fibronectin or GAG. These variants promoted bacterial attachment to different mammalian cell types in vitro, suggesting that fibronectin and GAG binding may play distinct roles during infection. Intravenous inoculation of mice with a high-passage non-infectious B. burgdorferi strain that produced wild-type BBK32 or BBK32 mutants defective for GAG or fibronectin binding, revealed that only GAG-binding activity was required for significant localization to joints at 60 min post-infection. An otherwise infectious B. burgdorferi strain producing BBK32 specifically deficient in fibronectin binding was fully capable of both skin and joint colonization in the murine model, whereas a strain producing BBK32 selectively attenuated for GAG binding colonized the inoculation site but not knee or tibiotarsus joints. Thus, the BBK32 fibronectin- and GAG-binding activities are separable in vivo, and BBK32-mediated GAG binding, but not fibronectin binding, contributes to joint colonization.
定殖于多个组织的微生物病原体通常会产生粘附性表面蛋白,这些蛋白介导病原体与靶器官中的细胞和/或细胞外基质的附着。许多这类“粘附素”会结合多种配体,这使得了解每种配体结合活性的作用变得复杂。莱姆病的病原体伯氏疏螺旋体产生BBK32,它最初被鉴定为一种促进皮肤和关节定殖的纤连蛋白结合粘附素。BBK32还能结合糖胺聚糖(GAG),与纤连蛋白一样,GAG也普遍存在于细胞表面。为了确定哪种结合活性与BBK32促进感染性有关,我们构建了一组BBK32截短和内部缺失突变体,并鉴定了与纤连蛋白或GAG结合存在特异性缺陷的变体。这些变体在体外促进了细菌对不同哺乳动物细胞类型的附着,这表明纤连蛋白和GAG结合在感染过程中可能发挥不同的作用。用产生野生型BBK32或GAG或纤连蛋白结合缺陷的BBK32突变体的高传代非感染性伯氏疏螺旋体菌株对小鼠进行静脉接种,结果显示,在感染后60分钟,只有GAG结合活性对于在关节中的显著定位是必需的。在小鼠模型中,一株产生特异性缺乏纤连蛋白结合能力的BBK32的具有感染性的伯氏疏螺旋体菌株完全能够定殖于皮肤和关节,而一株产生对GAG结合选择性减弱的BBK32的菌株定殖于接种部位,但不能定殖于膝盖或胫跗关节。因此,BBK32的纤连蛋白和GAG结合活性在体内是可分离的,并且BBK32介导的GAG结合而非纤连蛋白结合有助于关节定殖。