Medicinal polypharmacology—a scientific glossary of terminology and concepts

Stefan, Sven Marcel; Rafehi, Muhammad

doi:10.3389/fphar.2024.1419110

Front. Pharmacol.

2024

DOI: 10.3389/fphar.2024.1419110

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Medicinal polypharmacology—a scientific glossary of terminology and concepts

Sven Marcel Stefan,

Muhammad Rafehi

Abstract: Medicinal polypharmacology is one answer to the complex reality of multifactorial human diseases that are often unresponsive to single-targeted treatment. It is an admittance that intrinsic feedback mechanisms, crosstalk, and disease networks necessitate drugs with broad modes-of-action and multitarget affinities. Medicinal polypharmacology grew to be an independent research field within the last two decades and stretches from basic drug development to clinical research. It has developed its own terminology em… Show more

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2024

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Cited by 2 publications

References 96 publications

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Target repurposing unravels avermectins and derivatives as novel antibiotics inhibiting energy‐coupling factor transporters (ECFTs)

Haupenthal,

Rafehi,

Kany

et al. 2024

Archiv der Pharmazie

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Energy‐coupling factor transporters (ECFTs) are membrane‐bound ATP‐binding cassette (ABC) transporters in prokaryotes that are found in pathogens against which novel antibiotics are urgently needed. To date, just 54 inhibitors of three molecular‐structural classes with mostly weak inhibitory activity are known. Target repurposing is a strategy that transfers knowledge gained from a well‐studied protein family to under‐studied targets of phylogenetic relation. Forty‐eight human ABC transporters are known that may harbor structural motifs similar to ECFTs to which particularly multitarget compounds may bind. We assessed 31 multitarget compounds which together target the entire druggable human ABC transporter proteome against ECFTs, of which nine showed inhibitory activity (hit rate 29.0%) and four demonstrated moderate to strong inhibition of an ECFT (IC50 values between 4.28 and 50.2 µM) as well as antibacterial activity against ECFT‐expressing Streptococcus pneumoniae. Here, ivermectin was the most potent candidate (MIC95: 22.8 µM), and analysis of five ivermectin derivatives revealed moxidectin as one of the most potent ECFT‐targeting antibacterial agents (IC50: 2.23 µM; MIC95: 2.91 µM). Distinct molecular‐structural features of avermectins and derivatives as well as the differential biological response of the hit compounds in general provided first indications with respect to the structure–activity relationships and mode of action, respectively.

show abstract

Target repurposing unravels avermectins and derivatives as novel antibiotics inhibiting energy‐coupling factor transporters (ECFTs)

Haupenthal,

Rafehi,

Kany

et al. 2024

Archiv der Pharmazie

View full text Add to dashboard Cite

show abstract

Computer-aided pattern scoring (C@PS): a novel cheminformatic workflow to predict ligands with rare modes-of-action

Stefan,

Namasivayam

2024

J Cheminform

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The identification, establishment, and exploration of potential pharmacological drug targets are major steps of the drug development pipeline. Target validation requires diverse chemical tools that come with a spectrum of functionality, e.g., inhibitors, activators, and other modulators. Particularly tools with rare modes-of-action allow for a proper kinetic and functional characterization of the targets-of-interest (e.g., channels, enzymes, receptors, or transporters). Despite, functional innovation is a prime criterion for patentability and commercial exploitation, which may lead to therapeutic benefit. Unfortunately, data on new, and thus, undruggable or barely druggable targets are scarce and mostly available for mainstream modes-of-action only (e.g., inhibition). Here we present a novel cheminformatic workflow—computer-aided pattern scoring (C@PS)—which was specifically designed to project its prediction capabilities into an uncharted domain of applicability.

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Medicinal polypharmacology—a scientific glossary of terminology and concepts

Cited by 2 publications

References 96 publications

Target repurposing unravels avermectins and derivatives as novel antibiotics inhibiting energy‐coupling factor transporters (ECFTs)

Target repurposing unravels avermectins and derivatives as novel antibiotics inhibiting energy‐coupling factor transporters (ECFTs)

Computer-aided pattern scoring (C@PS): a novel cheminformatic workflow to predict ligands with rare modes-of-action

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