机器学习引导的新型伪天然产物生成：加速药物发现的应用。

IF 5.3 2区化学 Q1 CHEMISTRY, MEDICINAL

Journal of Chemical Information and Modeling Pub Date : 2025-10-18 DOI:10.1021/acs.jcim.5c01955

Wenyu Lu,Xiaoqian Peng,Yan Huang,Zhe Zheng,Zhenzhen Zhu,Xunkai Yin,Wenzhuo Xu,Shulan Mei,Xiuhong Lu,Xia Zhang,Yue Wang,Lihong Hu,Jian Liu

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引用次数: 0

摘要

天然产物（NPs）是药物发现的重要来源，人工智能（AI）被用于提高基于天然产物的药物发现效率。然而，现有的人工智能驱动的模型通常生成一个伪天然产物库，仅覆盖化学空间的一小部分，而且这些化合物也受到不良药物相似谱的限制。本文开发了GPT1，以生成具有优异有效性、唯一性和新颖性的多种伪天然产物，同时保留与训练集相似的分子特征。随后，采用增强爬坡（AHC）策略生成具有增强药物相似性的可合成化合物。利用整合的NPDL-GEN模型（GPT1 + AHC），得到化合物G1-G5，表现出明显改善的药物相似谱。此外，通过迁移学习生成的假天然产物H1-H3也具有较强的抗炎活性。因此，我们开发的机器学习模型可以加速基于np的药物发现。

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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Machine Learning-Guided Generation of Novel Pseudo-Natural Products: Applications to Accelerate Drug Discovery.

Natural products (NPs) are a critical source for drug discovery, and artificial intelligence (AI) is utilized to improve the efficiency of NP-based drug discovery. However, the existing AI-driven models typically generate a library of pseudo-natural products that only covers a small portion of the chemical space and the compounds were also restricted by poor drug-likeness profiles. Herein, the GPT1 is developed to generate diverse pseudo-natural products with excellent validity, uniqueness, and novelty while retaining molecular features similar to the training set. Subsequently, the Augmented Hill-Climb (AHC) strategy is employed to generate synthetically accessible compounds with enhanced drug-likeness. Using the integrated NPDL-GEN model (GPT1 + AHC), compounds G1-G5 were obtained, exhibiting significantly improved drug-likeness profiles. Furthermore, the pseudo-natural products H1-H3 generated via transfer learning also possess potent anti-inflammatory activities. Thus, our developed machine learning models can accelerate NP-based drug discovery.

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来源期刊

Journal of Chemical Information and Modeling 化学-化学综合

CiteScore

9.80

自引率

10.70%

发文量

529

审稿时长

1.4 months

期刊介绍： The Journal of Chemical Information and Modeling publishes papers reporting new methodology and/or important applications in the fields of chemical informatics and molecular modeling. Specific topics include the representation and computer-based searching of chemical databases, molecular modeling, computer-aided molecular design of new materials, catalysts, or ligands, development of new computational methods or efficient algorithms for chemical software, and biopharmaceutical chemistry including analyses of biological activity and other issues related to drug discovery. Astute chemists, computer scientists, and information specialists look to this monthly’s insightful research studies, programming innovations, and software reviews to keep current with advances in this integral, multidisciplinary field. As a subscriber you’ll stay abreast of database search systems, use of graph theory in chemical problems, substructure search systems, pattern recognition and clustering, analysis of chemical and physical data, molecular modeling, graphics and natural language interfaces, bibliometric and citation analysis, and synthesis design and reactions databases.