2022
DOI: 10.7554/elife.68832
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A human-based multi-gene signature enables quantitative drug repurposing for metabolic disease

Abstract: Insulin resistance (IR) contributes to the pathophysiology of diabetes, dementia, viral infection, and cardiovascular disease. Drug repurposing (DR) may identify treatments for IR; however, barriers include uncertainty whether in vitro transcriptomic assays yield quantitative pharmacological data, or how to optimise assay design to best reflect in vivo human disease. We developed a clinical-based human tissue IR signature by combining lifestyle-mediated treatment responses (>500 human adipose and muscle bio… Show more

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Cited by 14 publications
(19 citation statements)
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“…Finally, to explore the potential of our approach to identify new drug treatments, we utilized the CMap‐L1000v1 7 in vitro drug signature database (https://clue.io/) as previously described 14 . Briefly, to represent the prognosis‐related transcriptomics signature, we used the 60 most upregulated and 60 most down‐regulated genes that were also present in the CMap‐L1000v1 database.…”
Section: Methodsmentioning
confidence: 99%
See 4 more Smart Citations
“…Finally, to explore the potential of our approach to identify new drug treatments, we utilized the CMap‐L1000v1 7 in vitro drug signature database (https://clue.io/) as previously described 14 . Briefly, to represent the prognosis‐related transcriptomics signature, we used the 60 most upregulated and 60 most down‐regulated genes that were also present in the CMap‐L1000v1 database.…”
Section: Methodsmentioning
confidence: 99%
“…Briefly, to represent the prognosis‐related transcriptomics signature, we used the 60 most upregulated and 60 most down‐regulated genes that were also present in the CMap‐L1000v1 database. Choice of 60/60 genes is empirical and informed by our recent work on insulin resistance drug repurposing 14 that yielded a drug list composed of ∼50% true‐positive drug classes and/or drug targets. The matching score was calculated by aggregating the transcriptional pattern across nine independent cell lines for >2500 compounds, many of which include Food and Drug Administration approved drugs 14 .…”
Section: Methodsmentioning
confidence: 99%
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