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工程化 NfsB 激活缺氧抗性 PET 探针 EF5 类似物,以实现在酶前药治疗期间的非侵入性成像。

Engineering NfsB To Activate a Hypoxia-Resistant Analogue of the PET Probe EF5 To Enable Non-Invasive Imaging during Enzyme Prodrug Therapy.

机构信息

School of Biological Sciences , Victoria University of Wellington , Wellington 6012 , New Zealand.

Auckland Cancer Society Research Centre, School of Medical Sciences , The University of Auckland , Auckland 1023 , New Zealand.

出版信息

Biochemistry. 2019 Sep 3;58(35):3700-3710. doi: 10.1021/acs.biochem.9b00376. Epub 2019 Aug 20.

DOI:10.1021/acs.biochem.9b00376
PMID:31403283
Abstract

Gene-directed enzyme prodrug therapy (GDEPT) uses tumor-tropic vectors to deliver prodrug-converting enzymes such as nitroreductases specifically to the tumor environment. The nitroreductase NfsB from (NfsB_Ec) has been a particular focal point for GDEPT and over the past 25 years has been the subject of several engineering studies seeking to improve catalysis of prodrug substrates. To facilitate clinical development, there is also a need to enable effective non-invasive imaging capabilities. SN33623, a 5-nitroimidazole analogue of 2-nitroimidazole hypoxia probe EF5, has potential for PET imaging exogenously delivered nitroreductases without generating confounding background due to tumor hypoxia. However, we show here that SN33623 is a poor substrate for NfsB_Ec. To address this, we used assay-guided sequence and structure analysis to identify two conserved residues that block SN33623 activation in NfsB_Ec and close homologues. Introduction of the rational substitutions F70A and F108Y into NfsB_Ec conferred high levels of SN33623 activity and enabled specific labeling of expressing the engineered enzyme. Serendipitously, the F70A and F108Y substitutions also substantially improved activity with the anticancer prodrug CB1954 and the 5-nitroimidazole antibiotic prodrug metronidazole, which is a potential biosafety agent for targeted ablation of nitroreductase-expressing vectors.

摘要

基因导向酶前药治疗(GDEPT)使用肿瘤趋向性载体将前药转化酶(如硝基还原酶)特异性递送至肿瘤环境。来自 (NfsB_Ec)的硝基还原酶 NfsB 一直是 GDEPT 的一个特别关注点,在过去的 25 年中,已经有几项工程研究旨在提高前药底物的催化作用。为了促进临床开发,还需要能够实现有效的非侵入性成像能力。SN33623 是 2-硝基咪唑缺氧探针 EF5 的 5-硝基咪唑类似物,具有用于外源性递送硝基还原酶的 PET 成像的潜力,而不会因肿瘤缺氧产生混杂的背景。然而,我们在这里表明 SN33623 是 NfsB_Ec 的不良底物。为了解决这个问题,我们使用基于测定的序列和结构分析来鉴定两个保守残基,这些残基在 NfsB_Ec 和密切同源物中阻止 SN33623 的激活。将合理的取代 F70A 和 F108Y 引入 NfsB_Ec 赋予了 SN33623 高水平的活性,并能够对表达工程酶的进行特异性标记。偶然的是,F70A 和 F108Y 的取代也大大提高了抗癌前药 CB1954 和 5-硝基咪唑抗生素前药甲硝唑的活性,甲硝唑是一种用于靶向消融表达硝基还原酶的载体的潜在生物安全剂。

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