Deep learning–enabled discovery of antibiotics effective against Neisseria gonorrhoeae

淋病奈瑟菌 药物发现 抗生素 人类病原体 抗菌剂 肽聚糖 抗生素耐药性 计算生物学 微生物学 生物 病菌 小分子 性传播疾病 抗药性 被忽视的热带疾病 淋病 细菌 人类疾病 药物开发 青霉素结合蛋白 医学
作者
Melis N. Anahtar,Jacqueline A. Valeri,Seyed Majed Modaresi,Aarti Krishnan,Nina M. Donghia,Samantha G. Palace,Erica J. Zheng,Aakanksha Gulati,Alicia Jorgenson,Abidemi Junaid,Parijat Bandyopadhyay,Andreas Luttens,Krishna Suresh,Paige Edwards,Felix Wong,Yu Zhang,Danilo Ritz,Marion Gaborieau,Edmund Loh,Massimiliano Gaetani
出处
期刊:Science Translational Medicine [American Association for the Advancement of Science]
卷期号:18 (854)
标识
DOI:10.1126/scitranslmed.ads4699
摘要

Neisseria gonorrhoeae is a common Gram-negative pathogen with increasing resistance to all recommended antibiotics. There is a critical need to improve the efficiency of the antibiotic hit discovery process to replenish the drug development pipeline. Here, we show that deep learning models can augment high-throughput screens to identify readily available molecules with narrow-spectrum activity against difficult-to-treat strains of N. gonorrhoeae . We phenotypically tested 38,650 small molecules for N. gonorrhoeae growth inhibition to train a predictive graph neural network (GNN) model. We benchmarked the model’s performance against other architectures, including a large language model, and found that GNNs more accurately identify active, drug-like molecules that are structurally distinct from the training set and known antibiotics. Using the model to virtually screen ~6 million compounds, we identified 213 compounds for experimental validation and found that 83 (39%) inhibited N. gonorrhoeae growth. Two of these compounds were structurally dissimilar to existing antibiotics, maintained potency against multidrug-resistant N. gonorrhoeae strains in vitro, exhibited promising selectivity indices, and were rapidly bactericidal with low frequencies of resistance. Proteomic studies revealed their distinct mechanisms of action, with one compound targeting alanine racemase, an enzyme involved in the essential process of peptidoglycan synthesis. Furthermore, the compounds showed early promise in reducing N. gonorrhoeae titers in a human vagina-on-a-chip infection model and a mouse vaginal infection model. Our work establishes the deep learning–enabled discovery of selective antibacterial compounds against N. gonorrhoeae as a much-needed hit discovery tool to address the growing crisis of antimicrobial resistance for this pathogen.
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