最大限度地减少宿主内促炎和有毒细菌产物的释放:一种有希望改善危及生命的感染结果的方法

Roland Nau , Helmut Eiffert
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引用次数: 46

摘要

各种细菌成分(如内毒素、磷壁酸和脂磷壁酸、肽聚糖、DNA)通过刺激先天免疫系统和/或直接对真核细胞有毒(如溶血素)诱导或增强炎症。当抑制细菌蛋白质合成的抗生素杀死细菌时,在体外和体内释放的促炎或有毒化合物比用β-内酰胺类和其他细胞壁活性药物杀死细菌时释放的量要少。一般来说,高浓度的抗生素比接近最低抑菌浓度的抗生素释放出更少的细菌促炎或有毒化合物。在大肠杆菌、铜绿假单胞菌和金黄色葡萄球菌腹膜炎/败血症和肺炎链球菌脑膜炎的动物模型中,促炎细菌化合物的较低释放与死亡率或神经元损伤的降低有关。用细菌蛋白合成抑制剂预处理减少了通常在用β-内酰胺抗生素治疗期间观察到的细菌产物的强烈释放。现有数据强烈鼓励临床试验比较抗生素方案与不同释放的促炎/有毒细菌产品。减少细菌产物释放的方法在细菌负荷高的患者中获益最大。
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Minimizing the release of proinflammatory and toxic bacterial products within the host: A promising approach to improve outcome in life-threatening infections

Various bacterial components (e.g., endotoxin, teichoic and lipoteichoic acids, peptidoglycans, DNA) induce or enhance inflammation by stimulating the innate immune system and/or are directly toxic in eukariotic cells (e.g., hemolysins). When antibiotics which inhibit bacterial protein synthesis kill bacteria, smaller quantities of proinflammatory or toxic compounds are released in vitro and in vivo than during killing of bacteria by β-lactams and other cell-wall active drugs. In general, high antibiotic concentrations liberate lower quantities of bacterial proinflammatory or toxic compounds than concentrations close to the minimum inhibitory concentration. In animal models of Escherichia coli Pseudomonas aeruginosa and Staphylococcus aureus peritonitis/sepsis and of Streptococcus pneumoniae meningitis, a lower release of proinflammatory bacterial compounds was associated with a reduced mortality or neuronal injury. Pre-treatment with a bacterial protein synthesis inhibitor reduced the strong release of bacterial products usually observed during treatment with a β-lactam antibiotic. Data available strongly encourage clinical trials comparing antibiotic regimens with different release of proinflammatory/toxic bacterial products. The benefit of the approach to reduce the liberation of bacterial products should be greatest in patients with a high bacterial load.

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