Department of Microbiology, Faculty of Biochemistry, Biophysics, and Biotechnology, Jagiellonian University, Krakow, Poland.
Department of Oral Immunology and Infectious Diseases, University of Louisville School of Dentistry, Louisville, Kentucky, USA.
mBio. 2021 Feb 23;12(1):e02262-20. doi: 10.1128/mBio.02262-20.
Cargo proteins of the type IX secretion system (T9SS) in human pathogens from the Bacteroidetes phylum invariably possess a conserved C-terminal domain (CTD) that functions as a signal for outer membrane (OM) translocation. In , the CTD of cargos is cleaved off after translocation, and anionic lipopolysaccharide (A-LPS) is attached. This transpeptidase reaction anchors secreted proteins to the OM. PorZ, a cell surface-associated protein, is an essential component of the T9SS whose function was previously unknown. We recently solved the crystal structure of PorZ and found that it consists of two β-propeller moieties, followed by a CTD. In this study, we performed structure-based modeling, suggesting that PorZ is a carbohydrate-binding protein. Indeed, we found that recombinant PorZ specifically binds A-LPS Binding was blocked by monoclonal antibodies that specifically react with a phosphorylated branched mannan in the anionic polysaccharide (A-PS) component of A-LPS, but not with the core oligosaccharide or the lipid A endotoxin. Examination of A-LPS derived from a cohort of mutants producing various truncations of A-PS confirmed that the phosphorylated branched mannan is indeed the PorZ ligand. Moreover, purified recombinant PorZ interacted with the PorU sortase in an A-LPS-dependent manner. This interaction on the cell surface is crucial for the function of the "attachment complex" composed of PorU, PorZ, and the integral OM β-barrel proteins PorV and PorQ, which is involved in posttranslational modification and retention of T9SS cargos on the bacterial surface. Bacteria have evolved multiple systems to transport effector proteins to their surface or into the surrounding milieu. These proteins have a wide range of functions, including attachment, motility, nutrient acquisition, and toxicity in the host. , the human pathogen responsible for severe gum diseases (periodontitis), uses a recently characterized type IX secretion system (T9SS) to translocate and anchor secreted virulence effectors to the cell surface. Anchorage is facilitated by sortase, an enzyme that covalently attaches T9SS cargo proteins to a unique anionic lipopolysaccharide (A-LPS) moiety of Here, we show that the T9SS component PorZ interacts with sortase and specifically binds A-LPS. Binding is mediated by a phosphorylated branched mannan repeat in A-LPS polysaccharide. A-LPS-bound PorZ interacts with sortase with significantly higher affinity, facilitating modification of cargo proteins by the cell surface attachment complex of the T9SS.
IX 型分泌系统(T9SS)的货物蛋白在拟杆菌门的人类病原体中始终具有保守的 C 端结构域(CTD),该结构域作为外膜(OM)易位的信号。在该过程中,货物的 CTD 在易位后被切断,阴离子脂多糖(A-LPS)被连接。这种转肽酶反应将分泌蛋白锚定到 OM 上。PorZ 是一种细胞表面相关蛋白,是 T9SS 的必需组成部分,其功能以前未知。我们最近解决了 PorZ 的晶体结构,发现它由两个β-螺旋桨部分组成,后面是一个 CTD。在这项研究中,我们进行了基于结构的建模,表明 PorZ 是一种碳水化合物结合蛋白。事实上,我们发现重组 PorZ 特异性结合 A-LPS 结合被特异性与 A-LPS 阴离子多糖(A-PS)成分中磷酸化支链甘露聚糖反应的单克隆抗体阻断,但不与核心寡糖或脂质 A 内毒素结合。对源自产生各种 A-PS 截断的突变体的 A-LPS 的检查证实,磷酸化支链甘露聚糖确实是 PorZ 的配体。此外,纯化的重组 PorZ 以 A-LPS 依赖的方式与 PorU 连接酶相互作用。这种细胞表面上的相互作用对于由 PorU、PorZ 和完整 OM β-桶蛋白 PorV 和 PorQ 组成的“附着复合物”的功能至关重要,该复合物参与 T9SS 货物在细菌表面的翻译后修饰和保留。细菌已经进化出多种系统将效应蛋白输送到其表面或周围环境中。这些蛋白质具有广泛的功能,包括附着、运动、获取营养物质和在宿主中产生毒性。牙龈疾病(牙周炎)的人类病原体使用最近表征的 IX 型分泌系统(T9SS)将分泌的毒力效应蛋白转运并锚定到细胞表面。附着由连接酶促进,连接酶将 T9SS 货物蛋白共价连接到独特的阴离子脂多糖(A-LPS)上。在这里,我们表明 T9SS 组件 PorZ 与连接酶相互作用并特异性结合 A-LPS。结合由 A-LPS 多糖中的磷酸化支链甘露聚糖重复介导。与 A-LPS 结合的 PorZ 与连接酶的结合具有更高的亲和力,从而促进 T9SS 细胞表面附着复合物对货物蛋白的修饰。
