Abstract
Xiaoxuming decoction (XXMD), a classic traditional Chinese medicine (TCM) prescription, has been used as a therapeutic in the treatment of stroke in clinical practice for over 1200 years. However, the pharmacological mechanisms of XXMD have not yet been elucidated. The purpose of this study was to develop neuroprotective models for identifying neuroprotective compounds in XXMD against hypoxia-induced and H2O2-induced brain cell damage. In this study, a phenotype-based classification method was designed by machine learning to identify neuroprotective compounds and to clarify the compatibility of XXMD components. Four different single classifiers (AB, kNN, CT, and RF) and molecular fingerprint descriptors were used to construct stacked naïve Bayesian models. Among them, the RF algorithm had a better performance with an average MCC value of 0.725±0.014 and 0.774±0.042 from 5-fold cross-validation and test set, respectively. The probability values calculated by four models were then integrated into a stacked Bayesian model. In total, two optimal models, s-NB-1-LPFP6 and s-NB-2-LPFP6, were obtained. The two validated optimal models revealed Matthews correlation coefficients (MCC) of 0.968 and 0.993 for 5-fold cross-validation and of 0.874 and 0.959 for the test set, respectively. Furthermore, the two models were used for virtual screening experiments to identify neuroprotective compounds in XXMD. Ten representative compounds with potential therapeutic effects against the two phenotypes were selected for further cell-based assays. Among the selected compounds, two compounds significantly inhibited H2O2-induced and Na2S2O4-induced neurotoxicity simultaneously. Together, our findings suggested that machine learning algorithms such as combination Bayesian models were feasible to predict neuroprotective compounds and to preliminarily demonstrate the pharmacological mechanisms of TCM.
Highlights
Traditional Chinese medicine (TCM) prescriptions, as a representative of drug combinations, are generally used in combination with multiple medicinal herbs in a certain dose to exert therapeutic effects [1, 2]
Compounds in XXMD were analyzed by stacked naıve Bayesian models
The results demonstrated that the existence of the 12 TCMs contained in XXMD was valuable
Summary
Traditional Chinese medicine (TCM) prescriptions, as a representative of drug combinations, are generally used in combination with multiple medicinal herbs in a certain dose to exert therapeutic effects [1, 2]. The TCM prescription Xiaoxuming decoction (XXMD) has been an effective prescription for the treatment of stroke for over 1200 years and has been recorded in Beiji Qianjin Yaofang (Essential Prescriptions Worth a Thousand Gold for Emergencies) in Tang Dynasty [3]. Due to the complex composition in TCM prescriptions, it is difficult to conduct in-depth studies on the underlying pharmacological mechanisms of XXMD. It is essential to clarify the compatibility of various herbs in TCM prescriptions with sufficient approaches.
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