Evidence-Based and Quantitative Prioritization of Tool Compounds in Phenotypic Drug Discovery

Wang, Yuan; Cornett, Allen; King, Fred; Mao, Yi; Nigsch, Florian; Paris, Christine; McAllister, Gregory; Jenkins, Jeremy L.

doi:10.1016/j.chembiol.2016.05.016

Cited by 55 publications

(54 citation statements)

References 73 publications

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“…Having constructed a large-scaled integrated bioactivity data warehouse, we next devised a computational model for prioritization of MoA Box members through a quantitative confidence metric, which we later developed into a Tool Score. 10,11 In brief, a Tool Score evaluates both the strength of evidence of compound-target modulation and target selectivity. Strength of evidence derives from combining multiple computational inferences or annotations into a strength assertion.…”

Section: Informatics Driven Knowledge Automationmentioning

confidence: 99%

Systematic Chemogenetic Library Assembly

Canham

Wang

Cornett

et al. 2020

Preprint

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The assembly of chemogenetic libraries composed of chemical probes provides tremendous value to biomedical research, but requires substantial effort to ensure diversity as well as quality of the contents. We are assembling a chemogenetic library by data mining and crowdsourcing institutional expertise. We are sharing our methodology, lessons learned, and disclosing our current collection of 4186 compounds with their primary annotated gene targets.

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Section: Informatics Driven Knowledge Automationmentioning

confidence: 99%

Systematic Chemogenetic Library Assembly

Canham

Wang

Cornett

et al. 2020

Preprint

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“…10, 11, 12, 13, 14, 15, 16, 17, 18, 26, 27 These studies demonstrate that polypharmacologic understanding of drug action (that is, based on the full set of relevant targets) is superior to the single-target view. However, drug action is incontrovertibly the product of both direct chemical activity against targets and the expression pattern of those targets in specific tissues in the human body.…”

Section: Discussionmentioning

confidence: 92%

“…In vivo , polypharmacologic views of the actions of these drugs have not been extensively proposed. Such views would consist of weighted ensembles of all the receptors expressed by the human genome and affected by specific drugs, 10, 11, 12, 13, 14, 15, 16, 17, 18 further stratified by the differential anatomic expression of these receptors.…”

Section: Introductionmentioning

confidence: 99%

Chemistry-based molecular signature underlying the atypia of clozapine

et al. 2017

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The central nervous system is functionally organized as a dynamic network of interacting neural circuits that underlies observable behaviors. At higher resolution, these behaviors, or phenotypes, are defined by the activity of a specific set of biomolecules within those circuits. Identification of molecules that govern psychiatric phenotypes is a major challenge. The only organic molecular entities objectively associated with psychiatric phenotypes in humans are drugs that induce psychiatric phenotypes and drugs used for treatment of specific psychiatric conditions. Here, we identified candidate biomolecules contributing to the organic basis for psychosis by deriving an in vivo biomolecule-tissue signature for the atypical pharmacologic action of the antipsychotic drug clozapine. Our novel in silico approach identifies the ensemble of potential drug targets based on the drug's chemical structure and the region-specific gene expression profile of each target in the central nervous system. We subtracted the signature of the action of clozapine from that of a typical antipsychotic, chlorpromazine. Our results implicate dopamine D4 receptors in the pineal gland and muscarinic acetylcholine M1 (CHRM1) and M3 (CHRM3) receptors in the prefrontal cortex (PFC) as significant and unique to clozapine, whereas serotonin receptors 5-HT2A in the PFC and 5-HT2C in the caudate nucleus were common significant sites of action for both drugs. Our results suggest that D4 and CHRM1 receptor activity in specific tissues may represent underappreciated drug targets to advance the pharmacologic treatment of schizophrenia. These findings may enhance our understanding of the organic basis of psychiatric disorders and help developing effective therapies.

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“…This presents its own challenge, as the choice of an appropriate activity threshold depends on the biological context of the problem. For determining bioactivity of compounds, the threshold of 10,000nM (10μM) is often used, but a much stricter threshold of 100nM or under is more appropriate when requiring interactions to be relevant to drug binding [31,53]. Paolini et al .…”

Section: Current Resources For Drug-target Interactionsmentioning

confidence: 99%

Evidence-Based Precision Oncology with the Cancer Targetome

Blucher

Choonoo

Kulesz‐Martin

et al. 2017

Trends in Pharmacological Sciences

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A core tenet of precision oncology is the rational choice of drugs to interact with patient-specific biological targets of interest, but it is currently difficult for researchers to obtain consistent and well-supported target information for pharmaceutical drugs. We review current drug target interaction resources and critically assess how supporting evidence is handled. We introduce the concept of a unified Cancer Targetome to aggregate drug target interactions within an evidence-based framework. We discuss current unmet needs and the implications for evidence based-clinical omics. The focus of this review is precision oncology but the discussion is highly relevant to targeted therapies of any area.

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Evidence-Based and Quantitative Prioritization of Tool Compounds in Phenotypic Drug Discovery

Cited by 55 publications

References 73 publications

Systematic Chemogenetic Library Assembly

Systematic Chemogenetic Library Assembly

Chemistry-based molecular signature underlying the atypia of clozapine

Evidence-Based Precision Oncology with the Cancer Targetome

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