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Synthetic Biology‐based Construction of Unnatural Perylenequinones with Improved Photodynamic Anticancer Activities

Zengping Su, Baodang Guo, Huibin Xu, Zhenbo Yuan, Huiling Liu, Tao Guo, Zhiwei Deng, Yan Zhang, Dejing Yin, Chang‐Mei Liu, Jian‐huan Chen, Yijian Rao

2024Angewandte Chemie International Edition14 citationsDOI

Abstract

The construction of structural complexity and diversity of natural products is crucial for drug discovery and development. To overcome high dark toxicity and poor photostability of natural photosensitizer perylenequinones (PQs) for photodynamic therapy, herein, we aim to introduce the structural complexity and diversity to biosynthesize the desired unnatural PQs in fungus Cercospora through synthetic biology-based strategy. Thus, we first elucidate the intricate biosynthetic pathways of class B PQs and reveal how the branching enzymes create their structural complexity and diversity from a common ancestor. This enables the rational reprogramming of cercosporin biosynthetic pathway in Cercospora to generate diverse unnatural PQs without chemical modification. Among them, unnatural cercosporin A displays remarkably low dark toxicity and high photostability with retention of great photodynamic anticancer and antimicrobial activities. Moreover, it is found that, unlike cercosporin, unnatural cercosporin A could be selectively accumulated in cancer cells, providing potential targets for drug development. Therefore, this work provides a comprehensive foundation for preparing unnatural products with customized functions through synthetic biology-based strategies, thus facilitating drug discovery pipelines from nature.

Topics & Concepts

Synthetic biologyComputational biologyDrug discoveryBiologyChemical biologyCercosporaBiochemistryBotanyLeaf spotNanoplatforms for cancer theranosticsMicrobial Natural Products and BiosynthesisPhotodynamic Therapy Research Studies