Glucose utilization and lactate production by Helicobacter pylori.

G L Mendz, S L Hazell, B P Burns
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引用次数: 83

Abstract

The transport and incorporation of D-glucose into the human pathogen Helicobacter pylori was investigated employing radioactive tracer analysis and 1H and 13C nuclear magnetic resonance spectroscopy. The bacterium was found to utilize D-glucose contrary to the accepted view that it cannot catabolize carbohydrates. Under the experimental conditions employed, the rate of transport of [14C]glucose was 3.24 mmol min-1 (g protein)-1, and the rate of incorporation into the cellular mass was 1.06 mumol h-1 (g protein)-1. The utilization of [13C]glucose showed biphasic characteristics with a slower initial period followed by a phase with a rate of utilization at least an order of magnitude faster. The apparent rates of decline of glucose levels during both phases varied between strains and depended on the growth conditions of the bacteria prior to harvesting. The main product of glucose catabolism was identified as lactate. These findings provide new perspectives into the physiology of H. pylori and have implications for the active search to develop appropriate therapies for the micro-organism.

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幽门螺杆菌对葡萄糖的利用和乳酸的产生。
采用放射性示踪分析和1H和13C核磁共振波谱技术研究了d -葡萄糖在幽门螺杆菌中的转运和掺入。这种细菌被发现利用d -葡萄糖,这与公认的它不能分解碳水化合物的观点相反。在本实验条件下,[14C]葡萄糖的运输速率为3.24 mmol min-1 (g蛋白)-1,并入细胞团块的速率为1.06 mumol h-1 (g蛋白)-1。[13C]葡萄糖的利用表现出两相特征,初始阶段较慢,随后的阶段利用率至少快一个数量级。在这两个阶段,葡萄糖水平下降的表观速率因菌株而异,并取决于收获前细菌的生长条件。葡萄糖分解代谢的主要产物为乳酸。这些发现为幽门螺杆菌的生理学提供了新的视角,并对积极寻找合适的微生物治疗方法具有重要意义。
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