氟嘧啶影响嘧啶的从头合成,损害大肠杆菌生物膜的形成

IF 5.9 Q1 MICROBIOLOGY Biofilm Pub Date : 2024-02-07 DOI:10.1016/j.bioflm.2024.100180
Srikanth Ravishankar , Valerio Baldelli , Carlo Angeletti , Nadia Raffaelli , Paolo Landini , Elio Rossi
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引用次数: 0

摘要

抗病毒剂被认为是治疗细菌感染的一种有前途的策略。氟嘧啶类药物对革兰氏阴性细菌具有抗病毒和抗生物膜活性,但其作用机制尚不清楚。与已知的抗生物膜活性相一致的是,氟嘧啶类,尤其是 5-氟胞嘧啶(5-FC),通过下调卷曲纤毛基因的转录,损害大肠杆菌 MG1655 依赖卷曲纤毛的表面粘附。Curli 抑制作用需要将氟嘧啶转化为氟核苷酸,而不是由 c-di-GMP 或 ymg-rcs 包膜应激反应轴介导的。相反,5-FC 阻碍了卷曲激活剂 RpoS 的转录,并刺激了受核苷酸可用性影响的卷曲抑制剂 Fis 的表达。最后一项观察结果表明,5-FC 可能会扰乱嘧啶的新生物合成:事实上,暴露于 5-FC 会导致细胞内 UMP 水平降低约 2 倍,而 ATP 却不受影响。同样,在 5-FC 存在的情况下,新嘧啶生物合成基因 carB 和 pyrB 的表达上调。我们的研究结果表明,氟嘧啶类化合物的抗生物膜活性至少部分是通过扰乱嘧啶核苷酸池来介导的。我们对基因组文库进行了筛选,以寻找能够抵消 5-FC 作用的其他决定因素。我们发现,编码未知蛋白质 D8B36_18,480 和参与肽聚糖合成的青霉素结合蛋白 1b (PBP1b)N-末端结构域的 DNA 片段可以在 5-FC 存在的情况下恢复卷曲霉素的产生。缺失编码 PBP1b 的基因 mrcB 可诱导 csgBAC 的转录,而过量表达编码 D8B36_18,480 蛋白的基因则会使其表达消失,这可能是 curli 与 PBP1b 调节过程中协调反应的一部分。虽然这两种蛋白似乎不是 5-FC 的直接靶标,但它们参与 curli 的调控表明肽聚糖的生物合成与 curli 的产生之间存在联系,在嘧啶饥饿和细胞壁生物合成所需的 UDP-糖供应减少的情况下,这种联系可能变得更加重要。总之,我们的研究结果将氟嘧啶类化合物的抗生物膜活性与嘧啶饥饿诱导至少两个全局调控因子(RpoS、Fis)的重新定向联系起来。这凸显了新嘧啶生物合成途径在控制不同细菌毒力机制中的重要性,并使该途径成为抗病毒策略的潜在目标。
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Fluoropyrimidines affect de novo pyrimidine synthesis impairing biofilm formation in Escherichia coli

Antivirulence agents are considered a promising strategy to treat bacterial infections. Fluoropyrimidines possess antivirulence and antibiofilm activity against Gram-negative bacteria; however, their mechanism of action is yet unknown. Consistent with their known antibiofilm activity, fluoropyrimidines, particularly 5-fluorocytosine (5-FC), impair curli-dependent surface adhesion by Escherichia coli MG1655 via downregulation of curli fimbriae gene transcription. Curli inhibition requires fluoropyrimidine conversion into fluoronucleotides and is not mediated by c-di-GMP or the ymg-rcs envelope stress response axis, previously suggested as the target of fluorouracil antibiofilm activity in E. coli. In contrast, 5-FC hampered the transcription of curli activators RpoS and stimulated the expression of Fis, a curli repressor affected by nucleotide availability. This last observation suggested a possible perturbation of the de novo pyrimidine biosynthesis by 5-FC: indeed, exposure to 5-FC resulted in a ca. 2-fold reduction of UMP intracellular levels while not affecting ATP. Consistently, expression of the de novo pyrimidine biosynthesis genes carB and pyrB was upregulated in the presence of 5-FC. Our results suggest that the antibiofilm activity of fluoropyrimidines is mediated, at least in part, by perturbation of the pyrimidine nucleotide pool. We screened a genome library in search of additional determinants able to counteract the effects of 5-FC. We found that a DNA fragment encoding the unknown protein D8B36_18,480 and the N-terminal domain of the penicillin-binding protein 1b (PBP1b), involved in peptidoglycan synthesis, could restore curli production in the presence of 5-FC. Deletion of the PBP1b-encoding gene mrcB, induced csgBAC transcription, while overexpression of the gene encoding the D8B36_18,480 protein obliterated its expression, possibly as part of a coordinated response in curli regulation with PBP1b. While the two proteins do not appear to be direct targets of 5-FC, their involvement in curli regulation suggests a connection between peptidoglycan biosynthesis and curli production, which might become even more relevant upon pyrimidine starvation and reduced availability of UDP-sugars needed in cell wall biosynthesis. Overall, our findings link the antibiofilm activity of fluoropyrimidines to the redirection of at least two global regulators (RpoS, Fis) by induction of pyrimidine starvation. This highlights the importance of the de novo pyrimidines biosynthesis pathway in controlling virulence mechanisms in different bacteria and makes the pathway a potential target for antivirulence strategies.

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来源期刊
Biofilm
Biofilm MICROBIOLOGY-
CiteScore
7.50
自引率
1.50%
发文量
30
审稿时长
57 days
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