A library-derived peptide inhibitor of the BZLF1 transcription factor

IF 1.8 4区生物学 Q4 BIOCHEMISTRY & MOLECULAR BIOLOGY Journal of Peptide Science Pub Date : 2023-12-02 DOI:10.1002/psc.3557

Sarah K. Madden, Andrew Brennan, Jody M. Mason

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Abstract

Transcription factor dysregulation is associated with many diseases, including cancer. Peptide-based molecules are increasingly recognised as important modulators of difficult intracellular protein–protein interaction targets, with peptide library screening consequently proven to be a viable strategy in developing inhibitors against a wide range of transcription factors (TFs). However, current strategies simply select the highest affinity of binding to a target TF rather than the ability to inhibit TF function. Here, we utilise our Transcription Block Survival (TBS) screening platform to enable high-throughput identification of peptides that inhibit TFs from binding to cognate DNA sites, hence inhibiting functionality. In this study, we explore whether the TBS can be expanded to derive a potent and functional peptide inhibitor of the BZLF1 transcription factor. The library-derived peptide, AcidicW, is shown to form a more stable dimer with BZLF1 than the BZLF1 homodimer, with a thermal denaturation temperature exceeding 80°C. AcidicW can also functionally inhibit the BZLF1:TRE DNA interaction with high potency and an IC₅₀ of 612 nM.

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BZLF1转录因子的文库衍生肽抑制剂。

转录因子失调与包括癌症在内的许多疾病有关。基于肽的分子越来越被认为是细胞内蛋白-蛋白相互作用靶标的重要调节剂，因此肽库筛选被证明是开发针对多种转录因子(tf)抑制剂的可行策略。然而，目前的策略只是选择与目标TF结合的最高亲和力，而不是抑制TF功能的能力。在这里，我们利用我们的转录块存活(TBS)筛选平台来实现高通量鉴定抑制tf与同源DNA位点结合的肽，从而抑制功能。在这项研究中，我们探索是否可以扩展TBS，以获得一种有效的BZLF1转录因子肽抑制剂。文库衍生肽AcidicW与BZLF1形成的二聚体比BZLF1同型二聚体更稳定，热变性温度超过80℃。AcidicW还能有效抑制BZLF1:TRE DNA的相互作用，IC50为612 nM。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Peptide Science 生物-分析化学

CiteScore

3.40

自引率

4.80%

发文量

审稿时长

1.7 months

期刊介绍： The official Journal of the European Peptide Society EPS The Journal of Peptide Science is a cooperative venture of John Wiley & Sons, Ltd and the European Peptide Society, undertaken for the advancement of international peptide science by the publication of original research results and reviews. The Journal of Peptide Science publishes three types of articles: Research Articles, Rapid Communications and Reviews. The scope of the Journal embraces the whole range of peptide chemistry and biology: the isolation, characterisation, synthesis properties (chemical, physical, conformational, pharmacological, endocrine and immunological) and applications of natural peptides; studies of their analogues, including peptidomimetics; peptide antibiotics and other peptide-derived complex natural products; peptide and peptide-related drug design and development; peptide materials and nanomaterials science; combinatorial peptide research; the chemical synthesis of proteins; and methodological advances in all these areas. The spectrum of interests is well illustrated by the published proceedings of the regular international Symposia of the European, American, Japanese, Australian, Chinese and Indian Peptide Societies.