Microbes have evolved elaborate iron-acquisition systems to sequester iron from the host environment using siderophores and heme uptake systems. Gallium(III) is structurally similar to iron(III), except that it cannot be reduced under physiological conditions, therefore gallium has the potential to serve as an iron analog, and thus an anti-microbial. Because Ga(III) can bind to virtually any complex that binds Fe(III), simple gallium salts as well as more complex siderophores and hemes are potential carriers to deliver Ga(III) to the microbes. These gallium complexes represent a new class of anti-infectives that is different in mechanism of action from conventional antibiotics. Simple gallium salts such as gallium nitrate, maltolate, and simple gallium siderophore complexes such as gallium citrate have shown good antibacterial activities. The most studied complex has been gallium citrate, which exhibits broad activity against many Gram negative bacteria at ~1-5 μg/ml MICs, strong biofilm activity, low drug resistance, and efficacy in vivo. Using the structural features of specific siderophore and heme made by pathogenic bacteria and fungi, researchers have begun to evaluate new gallium complexes to target key pathogens. This review will summarize potential iron-acquisition system targets and recent research on gallium-based anti-infectives.
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机译:微生物已经进化出复杂的铁捕获系统,使用铁载体和血红素摄取系统从宿主环境中螯合铁。镓(III)在结构上类似于铁(III),除了在生理条件下无法还原外,因此镓具有用作铁类似物并因此具有抗菌作用的潜力。因为Ga(III)几乎可以结合任何与Fe(III)结合的络合物,所以简单的镓盐以及更复杂的铁载体和血红素是将Ga(III)传递给微生物的潜在载体。这些镓复合物代表了一类新的抗感染剂,其作用机理与常规抗生素不同。简单的镓盐(例如硝酸镓,麦芽酸盐)和简单的镓铁载体络合物(例如柠檬酸镓)已显示出良好的抗菌活性。研究最多的复合物是柠檬酸镓,它在1-5μg/ ml MIC下对多种革兰氏阴性细菌表现出广泛的活性,具有很强的生物膜活性,低耐药性和体内功效。利用病原细菌和真菌产生的特定铁载体和血红素的结构特征,研究人员已开始评估针对主要病原体的新型镓复合物。这篇综述将总结潜在的铁收购系统目标以及有关镓基抗感染剂的最新研究。
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