一株新的佩枯菌素衍生物及其对佩枯菌素生物合成的影响。

A new peucemycin derivative and impacts of peuR and bldA on peucemycin biosynthesis in Streptomyces peucetius.

机构信息

Department of Life Science and Biochemical Engineering, Sun Moon University, 70 Sun Moon-Ro 221, Tangjeong-Myeon, Asan-Si, 31460, Chungnam, Korea.

Department of Pharmaceutical Engineering and Biotechnology, Sun Moon University, 70 Sun Moon-Ro 221, Tangjeong-Myeon, Asan-Si, 31460, Chungnam, Korea.

出版信息

Appl Microbiol Biotechnol. 2024 Dec;108(1):107. doi: 10.1007/s00253-023-12923-4. Epub 2024 Jan 12.

DOI:10.1007/s00253-023-12923-4

PMID:38217253

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10786969/

Abstract

Streptomyces peucetius ATCC 27952 is known to produce a variety of secondary metabolites, including two important antitumor anthracyclines: daunorubicin and doxorubicin. Identification of peucemycin and 25-hydroxy peucemycin (peucemycin A), as well as their biosynthetic pathway, has expanded its biosynthetic potential. In this study, we isolated a new peucemycin derivative and identified it as 19-hydroxy peucemycin (peucemycin B). Its antibacterial activity was lower than those of peucemycin and peucemycin A. On the other hand, this newly identified peucemycin derivative had higher anticancer activity than the other two compounds for MKN45, NCI-H1650, and MDA-MB-231 cancer cell lines with IC values of 76.97 µM, 99.68 µM, and 135.2 µM, respectively. Peucemycin biosynthetic gene cluster revealed the presence of a SARP regulator named PeuR whose role was unknown. The presence of the TTA codon in the peuR and the absence of global regulator BldA in S. peucetius reduced its ability to regulate the peucemycin biosynthetic gene cluster. Hence, different mutants harboring these genes were prepared. S. peucetius bldA25 harboring bldA produced 1.75 times and 1.77 times more peucemycin A (11.8 mg/L) and peucemycin B (21.2 mg/L), respectively, than the wild type. On the other hand, S. peucetius R25 harboring peuR produced 1.86 and 1.79 times more peucemycin A (12.5 mg/L) and peucemycin B (21.5 mg/L), respectively, than the wild type. Finally, strain S. peucetius bldAR25 carrying bldA and peuR produced roughly 3.52 and 2.63 times more peucemycin A (23.8 mg/L) and peucemycin B (31.5 mg/L), respectively, than the wild type. KEY POINTS: • This study identifies a new peucemycin derivative, 19-hydroxy peucemycin (peucemycin B). • The SARP regulator (PeuR) acts as a positive regulator of the peucemycin biosynthetic gene cluster. • The overexpression of peuR and heterologous expression of bldA increase the production of peucemycin derivatives.

摘要

产色链霉菌 ATCC27952 已知能产生多种次级代谢产物，包括两种重要的抗肿瘤蒽环类抗生素：柔红霉素和多柔比星。peucemycin 和 25-羟基 peucemycin（peucemycin A）的鉴定及其生物合成途径的确定，扩展了其生物合成潜力。在这项研究中，我们分离到一种新的 peucemycin 衍生物，并鉴定为 19-羟基 peucemycin（peucemycin B）。它的抗菌活性低于 peucemycin 和 peucemycin A。另一方面，这种新鉴定的 peucemycin 衍生物对 MKN45、NCI-H1650 和 MDA-MB-231 癌细胞系的抗癌活性高于其他两种化合物，IC 值分别为 76.97µM、99.68µM 和 135.2µM。peucemycin 生物合成基因簇揭示了存在一种名为 PeuR 的 SARP 调节剂，但其作用尚不清楚。在 peuR 中存在 TTA 密码子，而在产色链霉菌中不存在全局调节剂 BldA，这降低了其调节 peucemycin 生物合成基因簇的能力。因此，制备了携带这些基因的不同突变体。携带 bldA 的产色链霉菌 bldA25 分别产生了 1.75 倍和 1.77 倍的 peucemycin A（11.8mg/L）和 peucemycin B（21.2mg/L），高于野生型。另一方面，携带 peuR 的产色链霉菌 R25 分别产生了 1.86 倍和 1.79 倍的 peucemycin A（12.5mg/L）和 peucemycin B（21.5mg/L），高于野生型。最后，携带 bldA 和 peuR 的产色链霉菌 bldAR25 分别产生了大约 3.52 倍和 2.63 倍的 peucemycin A（23.8mg/L）和 peucemycin B（31.5mg/L），高于野生型。要点：• 本研究鉴定了一种新的 peucemycin 衍生物，19-羟基 peucemycin（peucemycin B）。• SARP 调节剂（PeuR）作为 peucemycin 生物合成基因簇的正调控因子发挥作用。• peuR 的过表达和 bldA 的异源表达增加了 peucemycin 衍生物的产量。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8ca5/10786969/a7f377fff937/253_2023_12923_Fig1_HTML.jpg

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一株新的佩枯菌素衍生物及其对佩枯菌素生物合成的影响。

A new peucemycin derivative and impacts of peuR and bldA on peucemycin biosynthesis in Streptomyces peucetius.

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