用基于人工智能的新药物设计和分子优化解决化学空间受限的问题。

IF 4.9 2区医学 Q1 PHARMACOLOGY & PHARMACY

Expert Opinion on Drug Discovery Pub Date : 2025-09-01 DOI:10.1080/17460441.2025.2555275

Alan Talevi, Lucas N Alberca, Carolina L Bellera

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引用次数: 0

摘要

对分子新颖性的探索经常与具有最佳转化前景的候选药物局限于或集中于化学空间的特定区域这一事实相冲突。人工智能的新可能性，特别是反合成预测和生成式人工智能，允许对化学空间中限制较少和未开发的领域进行自动化或半自动探索。涵盖领域：讨论了药物发现中的新颖性概念，并介绍了人工智能引导的新药物设计、优化和逆转录预测的代表性示例，重点介绍了过去3年（2022-2025）发表的开源工具报告。使用Scopus检索相关文献。专家意见：现代深度学习架构已经适应了从头设计和分子优化。这些技术，特别是那些基于条件生成的技术，可能会对扩大化学空间的区域产生巨大影响，这些区域被用于治疗。然而，该领域存在一些持续存在的挑战，这些挑战正在逐渐得到解决，包括如何在不影响结构新颖性产生的情况下评估设计分子的合成可及性；需要增加基准数据集的可用性和多样性；大规模实验验证设计的相对稀缺。

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Tackling the issue of confined chemical space with AI-based de novo drug design and molecular optimization.

Introduction: The search for molecular novelty frequently collides with the fact that drug candidates with the best translational prospects are confined to - or concentrated in - defined regions of chemical space. The new possibilities of AI, particularly retrosynthesis prediction and generative AI, allow for the automated or semi-automated exploration of less restricted and unexplored areas of chemical space.

Areas covered: The notion of novelty in drug discovery is discussed, and representative examples of AI-guided de novo drug design, optimization, and retrosynthesis prediction are presented, with a focus on reports on open-source tools published in the last 3 years (2022-2025). Scopus was used to search relevant literature.

Expert opinion: Modern deep learning architectures have been adapted for the de novo design and molecular optimization. These technologies, and especially those based on conditional generation, will possibly have a great impact on expanding the regions of chemical space that are exploited therapeutically. However, there are some persistent challenges in the field that are gradually being addressed, including how to assess the synthetic accessibility of designed molecules without compromising the generation of structural novelty; the need to increase the availability and diversity of benchmark datasets; and the relative scarcity of large-scale experimental validation of the designs.

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来源期刊

Expert Opinion on Drug Discovery 医学-药学

CiteScore

10.20

自引率

1.60%

发文量

审稿时长

6-12 weeks

期刊介绍： Expert Opinion on Drug Discovery (ISSN 1746-0441 [print], 1746-045X [electronic]) is a MEDLINE-indexed, peer-reviewed, international journal publishing review articles on novel technologies involved in the drug discovery process, leading to new leads and reduced attrition rates. Each article is structured to incorporate the author’s own expert opinion on the scope for future development. The Editors welcome: Reviews covering chemoinformatics; bioinformatics; assay development; novel screening technologies; in vitro/in vivo models; structure-based drug design; systems biology Drug Case Histories examining the steps involved in the preclinical and clinical development of a particular drug The audience consists of scientists and managers in the healthcare and pharmaceutical industry, academic pharmaceutical scientists and other closely related professionals looking to enhance the success of their drug candidates through optimisation at the preclinical level.