Department of Biological Sciences, University of Alberta, Edmonton, AB, Canada.
Microb Cell Fact. 2012 Jan 25;11:13. doi: 10.1186/1475-2859-11-13.
Immune responses directed towards surface polysaccharides conjugated to proteins are effective in preventing colonization and infection of bacterial pathogens. Presently, the production of these conjugate vaccines requires intricate synthetic chemistry for obtaining, activating, and attaching the polysaccharides to protein carriers. Glycoproteins generated by engineering bacterial glycosylation machineries have been proposed to be a viable alternative to traditional conjugation methods.
In this work we expressed the C. jejuni oligosaccharyltansferase (OTase) PglB, responsible for N-linked protein glycosylation together with a suitable acceptor protein (AcrA) in Yersinia enterocolitica O9 cells. MS analysis of the acceptor protein demonstrated the transfer of a polymer of N-formylperosamine to AcrA in vivo. Because Y. enterocolitica O9 and Brucella abortus share an identical O polysaccharide structure, we explored the application of the resulting glycoprotein in vaccinology and diagnostics of brucellosis, one of the most common zoonotic diseases with over half a million new cases annually. Injection of the glycoprotein into mice generated an IgG response that recognized the O antigen of Brucella, although this response was not protective against a challenge with a virulent B. abortus strain. The recombinant glycoprotein coated onto magnetic beads was efficient in differentiating between naïve and infected bovine sera.
Bacterial engineered glycoproteins show promising applications for the development on an array of diagnostics and immunoprotective opportunities in the future.
针对与蛋白质结合的表面多糖的免疫反应可有效预防细菌病原体的定植和感染。目前,这些结合疫苗的生产需要复杂的合成化学方法来获得、激活和将多糖连接到蛋白质载体上。通过工程化细菌糖基化机器产生的糖蛋白已被提议作为传统缀合方法的可行替代方法。
在这项工作中,我们在肠耶尔森氏菌 O9 细胞中表达了负责 N 连接蛋白糖基化的空肠弯曲菌寡糖转移酶 (OTase) PglB 以及合适的受体蛋白 (AcrA)。受体蛋白的 MS 分析表明,聚合物的 N-甲酰基高丝氨酸在体内转移到 AcrA 上。由于肠耶尔森氏菌 O9 和流产布鲁氏菌具有相同的 O 多糖结构,我们探索了所得糖蛋白在疫苗学和布鲁氏菌病诊断学中的应用,布鲁氏菌病是最常见的人畜共患病之一,每年有超过 50 万例新发病例。将糖蛋白注射到小鼠中会产生针对布鲁氏菌 O 抗原的 IgG 反应,但该反应不能预防强毒流产布鲁氏菌菌株的攻击。涂覆在磁性珠上的重组糖蛋白可有效区分未感染和感染的牛血清。
细菌工程化糖蛋白显示出在未来开发一系列诊断和免疫保护机会的有希望的应用。
