Resistance of pathogens to antimicrobial therapeutics has become a widespread problem. Resistance can emerge naturally, but it can also be engineered intentionally, which is an important consideration in designing therapeutics for bioterrorism agents. Blocking host receptors used by pathogens represents a powerful strategy to overcome this problem, because extensive alterations to the pathogen may be required to enable it to switch to a new receptor that can still support pathogenesis. Here, we demonstrate a facile method for producing potent receptor-directed antitoxins. We used phage display to identify a peptide that binds both anthrax-toxin receptors and attached this peptide to a synthetic scaffold. Polyvalency increased the potency of these peptides by >50,000-fold in vitro and enabled the neutralization of anthrax toxin in vivo. This work demonstrates a receptor-directed anthrax-toxin inhibitor and represents a promising strategy to combat a variety of viral and bacterial diseases.

译文

病原体对抗菌药物的耐药性已成为一个普遍的问题。抗药性可以自然产生,但也可以有意地进行抗药性设计,这是设计生物恐怖主义药物的重要考虑因素。阻断病原体使用的宿主受体代表了解决此问题的有力策略,因为可能需要对病原体进行广泛的改造,才能使其转变为仍能支持发病机制的新受体。在这里,我们展示了一种生产有效的受体定向抗毒素的简便方法。我们使用噬菌体展示来鉴定结合炭疽毒素受体的肽,并将该肽连接到合成支架上。多价性在体外使这些肽的效价增加了> 50,000倍,并能够在体内中和炭疽毒素。这项工作证明了受体导向的炭疽毒素抑制剂,并代表了对抗多种病毒和细菌疾病的一种有前途的策略。

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