Shengqiao Gao scite author profile

Shengqiao Gao

4Publications

27Citation Statements Received

192Citation Statements Given

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Modeling drug mechanism of action with large scale gene-expression profiles using GPAR, an artificial intelligence platform

Gao¹,

Han²,

Luo³

et al. 2021

BMC Bioinformatics

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Background Querying drug-induced gene expression profiles with machine learning method is an effective way for revealing drug mechanism of actions (MOAs), which is strongly supported by the growth of large scale and high-throughput gene expression databases. However, due to the lack of code-free and user friendly applications, it is not easy for biologists and pharmacologists to model MOAs with state-of-art deep learning approach. Results In this work, a newly developed online collaborative tool, Genetic profile-activity relationship (GPAR) was built to help modeling and predicting MOAs easily via deep learning. The users can use GPAR to customize their training sets to train self-defined MOA prediction models, to evaluate the model performances and to make further predictions automatically. Cross-validation tests show GPAR outperforms Gene set enrichment analysis in predicting MOAs. Conclusion GPAR can serve as a better approach in MOAs prediction, which may facilitate researchers to generate more reliable MOA hypothesis.

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Accelerating drug repurposing for COVID-19 treatment by modeling mechanisms of action using cell image features and machine learning

Han¹,

Shan

Chu

et al. 2021

Cogn Neurodyn

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Deep learning applications for the accurate identification of low-transcriptional activity drugs and their mechanism of actions

Gao¹,

Han²,

Luo³

et al. 2022

Pharmacological Research

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LINCS Dataset-Based Repositioning of Dutasteride as an Anti-Neuroinflammation Agent

Luo¹,

Han²,

Gao³

et al. 2021

Brain Sciences

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Neuroinflammation is often accompanied by central nervous system (CNS) injury seen in various CNS diseases, with no specific treatment. Drug repurposing is a strategy of finding new uses for approved or investigational drugs, and can be enabled by the Library of Integrated Network-based Cellular Signatures (LINCS), a large drug perturbation database. In this study, the signatures of Lipopolysaccharide (LPS) were compared with the signatures of compounds contained in the LINCS dataset. To the top 100 compounds obtained, the Quantitative Structure-Activity Relationship (QSAR)-based tool admetSAR was used to identify the top 10 candidate compounds with relatively high blood–brain barrier (BBB) penetration. Furthermore, the seventh-ranked compound, dutasteride, a 5-α-reductase inhibitor, was selected for in vitro and in vivo validation of its anti-neuroinflammation activity. The results showed that dutasteride significantly reduced the levels of IL-6 and TNF-α in the supernatants of LPS-stimulated BV2 cells, and decreased the levels of IL-6 in the hippocampus and plasma, and the number of activated microglia in the brain of LPS administration mice. Furthermore, dutasteride also attenuated the cognitive impairment caused by LPS stimulation in mice. Taken together, this study demonstrates that the LINCS dataset-based drug repurposing strategy is an effective approach, and the predicted candidate, dutasteride, has the potential to ameliorate LPS-induced neuroinflammation and cognitive impairment.

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Shengqiao Gao

Modeling drug mechanism of action with large scale gene-expression profiles using GPAR, an artificial intelligence platform

Accelerating drug repurposing for COVID-19 treatment by modeling mechanisms of action using cell image features and machine learning

Deep learning applications for the accurate identification of low-transcriptional activity drugs and their mechanism of actions

LINCS Dataset-Based Repositioning of Dutasteride as an Anti-Neuroinflammation Agent

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