Phenotypic screening of 1,953 FDA-approved drugs reveals 26 hits with potential for repurposing for Peyronie's disease

• Published in: PloS one Vol. 17; no. 12; p. e0277646
• Main Authors: Ilg, Marcus M, Lapthorn, Alice R, Ralph, David J, Cellek, Selim
• Format: Journal Article
• Language: English
• Published: United States Public Library of Science 12.12.2022; Public Library of Science (PLoS)
• Subjects: Analysis; Antibodies; Antitumor agents; Biology and Life Sciences; Cell viability; Collagen; Collagenase; Connective tissue diseases; Coronaviruses; COVID-19; COVID-19 - pathology; Disease; Drug approval; Drug screening; Drug therapy; Drugs; Endocrinology; Erectile dysfunction; Erection; Evaluation; FDA approval; Fibroblasts; Genetic transformation; Health services; Humans; Infrared imaging systems; Libraries; Male; Medical treatment; Medicine and Health Sciences; Movement disorders; Neurology; Pain; Pandemics; Patient outcomes; Patients; Penile induration; Penile Induration - drug therapy; Penile Induration - pathology; Penis; Penis - pathology; Phenotype; Phenotypes; Physical Sciences; R&D; Research & development; Research and Analysis Methods; Surgery; Transformation; Transforming Growth Factor beta1 - pharmacology; Transforming growth factor-b1; Vascular endothelial growth factor receptors; United Kingdom; United Kingdom > UK; England; United States > US
• ISSN: 1932-6203; 1932-6203
• DOI: 10.1371/journal.pone.0277646

Drug repurposing has been shown to bring safe medications to new patient populations, as recently evidenced by the COVID-19 pandemic. We investigated whether we could use phenotypic screening to repurpose drugs for the treatment of Peyronie's disease (PD). PD is a fibrotic disease characterised by continued myofibroblast presence and activity leading to formation of a plaque in the penile tunica albuginea (TA) that can cause pain during erection, erectile dysfunction, and penile deformity. PD affects 3-9% of men with treatment options limited to surgery or injection of collagenase which can only be utilised at late stages after the plaque is formed. Currently there are no approved medications that can be offered to patients presenting with early disease before the formation of the plaque. Drug repurposing may therefore be the ideal strategy to identify medical treatments to address this unmet medical need in early PD. We used primary human fibroblasts from PD patients in a phenotypic screening assay that measures TGF-β1-induced myofibroblast transformation which is the main cellular phenotype that drives the pathology in early PD. A library of FDA-approved 1,953 drugs was screened in duplicate wells at a single concentration (10 μM) in presence of TGF-β1. The myofibroblast marker α-SMA was quantified after 72h incubation. A positive control of SB-505124 (TGF-β1 receptor antagonist) was included on each plate. Hits were defined as showing >80% inhibition, whilst retaining >80% cell viability. 26 hits (1.3%) were identified which were divided into the following main groups: anti-cancer drugs, anti-inflammation, neurology, endocrinology, and imaging agents. Five of the top-ten drugs that increase myofibroblast-transformation appear to act on VEGFR. This is the first phenotypic screening of FDA-approved drugs for PD and our results suggest that it is a viable method to predict drugs with potential for repurposing to treat early PD.