Department of Medicine and Microbiology, Center for Comparative Medicine, University of California, Davis School of Medicine, Davis, California 95616, USA.
Infect Immun. 2010 Apr;78(4):1593-600. doi: 10.1128/IAI.01297-09. Epub 2010 Feb 1.
The Helicobacter pylori babA gene encodes an outer membrane protein that mediates binding to fucosylated ABH antigens of the ABO blood group. We recently demonstrated that BabA expression is lost during experimental infection of rhesus macaques with H. pylori J166. We sought to test the generality of this observation by comparison of different H. pylori strains and different animal hosts. Challenge of macaques with H. pylori J99 yielded output strains that lost BabA expression, either by selection and then expansion of a subpopulation of J99 that had a single-base-pair mutation that encoded a stop codon or by gene conversion of babA with a duplicate copy of babB, a paralog of unknown function. Challenge of mice with H. pylori J166, which unlike J99, has 5' CT repeats in babA, resulted in loss of BabA expression due to phase variation. In the gerbil, Leb binding was lost by replacement of the babA gene that encoded Leb binding with a nonbinding allele that differed at six amino acid residues. Complementation experiments confirmed that change in these six amino acids of BabA was sufficient to eliminate binding to Leb and to gastric tissue. These results demonstrate that BabA expression in vivo is highly dynamic, and the findings implicate specific amino acid residues as critical for binding to fucosylated ABH antigens. We hypothesize that modification of BabA expression during H. pylori infection is a mechanism to adapt to changing conditions of inflammation and glycan expression at the epithelial surface.
幽门螺杆菌的 babA 基因编码一种外膜蛋白,介导与 ABO 血型的岩藻糖基化 ABH 抗原的结合。我们最近证明,在恒河猴实验感染幽门螺杆菌 J166 期间,BabA 表达丢失。我们试图通过比较不同的幽门螺杆菌菌株和不同的动物宿主来检验这一观察结果的普遍性。用幽门螺杆菌 J99 挑战猕猴产生了输出菌株,这些菌株要么通过选择和扩展 J99 的一个亚群而丢失 BabA 表达,该亚群具有一个编码终止密码子的单碱基对突变,要么通过 babA 与 babB 的基因转换,babB 是一个功能未知的同源物。用不同于 J99 的幽门螺杆菌 J166 挑战小鼠,导致 BabA 表达丢失,这是由于相位变异。在沙鼠中,通过用编码 Leb 结合的 babA 基因的非结合等位基因替换,导致 Leb 结合丢失。互补实验证实,BabA 这六个氨基酸的变化足以消除与 Leb 和胃组织的结合。这些结果表明,体内 BabA 的表达是高度动态的,这些发现表明特定的氨基酸残基对于与岩藻糖基化 ABH 抗原的结合是至关重要的。我们假设,在幽门螺杆菌感染期间,BabA 表达的修饰是一种适应上皮表面炎症和聚糖表达变化的机制。