无人看管的责任:包柔氏菌对氨基酸的复杂依赖性暴露了独特的抑制途径

Katrina J Holly, Arti Kataria, Daniel P. Flaherty, Ashley M Groshong
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摘要

美国疾病控制与预防中心最近的报告显示,美国每年约有 50 万例莱姆病病例,给医疗系统造成了巨大的经济负担。莱姆病的标准治疗方法包括广谱抗生素,这种抗生素可能需要长期使用,对患者造成严重影响。最近,我们证实,莱姆病的致病菌鲍瑞氏菌(Borrelia burgdorferi)独特地依赖于通过寡肽转运(Opp)系统获取肽。这种依赖性似乎是螺旋体所独有的;因此,Opp 系统可能是抑制 B. burgdorferi 的一个新的特异性靶点。为了证明这一概念,我们进行了一次试验性筛选,以确定 Opp 系统是否是一个可行的抑制剂靶点。我们将 OppA2 作为目标蛋白,因为它是整个侵袭周期中最多的肽结合蛋白。我们验证了热转移检测法(TSA)来检测配体与 OppA2 的结合,并从多样性集库中对 2240 个分子进行了高通量筛选。TSA 结果确定了八种化合物(C1-8)与 OppA2 有潜在的结合力,生长试验确定了 C2 和 C7 是 B. burgdorferi 生长的抑制剂。我们通过 TSA 证实,这两种化合物与更多的 B. burgdorferi OppAs 相互作用,可能产生累积抑制作用。此外,我们还发现这两种化合物对大肠杆菌没有影响,大肠杆菌编码了一种可有可无的 Opp 系统,该系统只是一种辅助性的营养物质转运体。这些数据表明,布氏菌的Opp系统是一个可行的药物靶点,有可能用一种化合物靶向多种OppAs。此外,对大肠杆菌没有抑制作用表明,通过 Opp 系统选择性地靶向布氏菌是可能的。
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Unguarded liabilities: Borrelia burgdorferi’s complex amino acid dependence exposes unique avenues of inhibition
Recent reports from the Centers for Disease Control and Prevention approximate 500,000 cases of Lyme disease in the United States yearly, a significant economic burden on the healthcare system. The standard treatment for Lyme disease includes broad-spectrum antibiotics, which may be administered for extensive periods of time and result in significant impacts to the patient. Recently, we demonstrated that Borrelia burgdorferi, the causative agent of Lyme disease, is uniquely dependent upon peptide acquisition via an oligopeptide transport (Opp) system. This dependence appears unique to the spirochete; thus, the Opp system may constitute a novel and specific target for the inhibition of B. burgdorferi. For proof of concept, we conducted a pilot screen to determine if the Opp system constitutes a viable inhibitor target. OppA2 was utilized as our target protein as it is the most prolific peptide-binding protein throughout the enzootic cycle. We validated a thermal shift assay (TSA) to detect ligand binding against OppA2 and performed a high-throughput screen of 2,240 molecules from a diversity set library. The TSA results identified eight compounds (C1–8) demonstrating potential binding to OppA2, and growth assays identified C2 and C7 as inhibitors of B. burgdorferi growth. We confirmed by TSA that these two compounds interact with additional B. burgdorferi OppAs, potentially resulting in a cumulative inhibitory effect. Additionally, we showed that these compounds have no effect on Escherichia coli, a bacterium that encodes a dispensable Opp system which serves only as an ancillary nutrient transporter. These data demonstrate that the Opp system of B. burgdorferi acts as a viable drug target, with the potential for targeting multiple OppAs with a single compound. Moreover, the lack of inhibition against E. coli suggests that selective targeting of B. burgdorferi via the Opp system may be possible.
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