Discovering NDM-1 inhibitors using molecular substructure embeddings representations.

IF 1.5 Q3 MATHEMATICAL & COMPUTATIONAL BIOLOGY Journal of Integrative Bioinformatics Pub Date : 2023-06-01 DOI:10.1515/jib-2022-0050

Thomas Papastergiou, Jérôme Azé, Sandra Bringay, Maxime Louet, Pascal Poncelet, Miyanou Rosales-Hurtado, Yen Vo-Hoang, Patricia Licznar-Fajardo, Jean-Denis Docquier, Laurent Gavara

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Abstract

NDM-1 (New-Delhi-Metallo-β-lactamase-1) is an enzyme developed by bacteria that is implicated in bacteria resistance to almost all known antibiotics. In this study, we deliver a new, curated NDM-1 bioactivities database, along with a set of unifying rules for managing different activity properties and inconsistencies. We define the activity classification problem in terms of Multiple Instance Learning, employing embeddings corresponding to molecular substructures and present an ensemble ranking and classification framework, relaying on a k-fold Cross Validation method employing a per fold hyper-parameter optimization procedure, showing promising generalization ability. The MIL paradigm displayed an improvement up to 45.7 %, in terms of Balanced Accuracy, in comparison to the classical Machine Learning paradigm. Moreover, we investigate different compact molecular representations, based on atomic or bi-atomic substructures. Finally, we scanned the Drugbank for strongly active compounds and we present the top-15 ranked compounds.

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利用分子亚结构嵌入表征发现NDM-1抑制剂。

NDM-1 (new - delhi - metallic -β-lactamase-1)是一种由细菌产生的酶，与细菌对几乎所有已知抗生素的耐药性有关。在这项研究中，我们提供了一个新的，精心策划的NDM-1生物活性数据库，以及一套统一的规则来管理不同的活性特性和不一致性。我们从多实例学习的角度定义了活动分类问题，采用与分子子结构相对应的嵌入，并提出了一个集成排序和分类框架，依赖于采用每层超参数优化过程的k-fold交叉验证方法，显示出良好的泛化能力。与经典机器学习范式相比，MIL范式在平衡精度方面的提高高达45.7 %。此外，我们还研究了基于原子或双原子亚结构的不同紧凑分子表征。最后，我们扫描了Drugbank中的强活性化合物，并给出了排名前15位的化合物。

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