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dc.contributor.author Booij TH
dc.contributor.author Klop MJ
dc.contributor.author Yan K
dc.contributor.author Szantai-Kis C
dc.contributor.author Szokol Bálint
dc.contributor.author Őrfi László
dc.contributor.author Kéri György
dc.contributor.author van de Water B
dc.contributor.author Price LS
dc.date.accessioned 2018-04-30T19:49:27Z
dc.date.available 2018-04-30T19:49:27Z
dc.date.issued 2016
dc.identifier 84988515925
dc.identifier.citation pagination=912-922; journalVolume=21; journalIssueNumber=9; journalTitle=JOURNAL OF BIOMOLECULAR SCREENING;
dc.identifier.uri http://repo.lib.semmelweis.hu//handle/123456789/5308
dc.identifier.uri doi:10.1177/1087057116657269
dc.description.abstract 3D tissue cultures provide a more physiologically relevant context for the screening of compounds, compared with 2D cell cultures. Cells cultured in 3D hydrogels also show complex phenotypes, increasing the scope for phenotypic profiling. Here we describe a high-content screening platform that uses invasive human prostate cancer cells cultured in 3D in standard 384-well assay plates to study the activity of potential therapeutic small molecules and antibody biologics. Image analysis tools were developed to process 3D image data to measure over 800 phenotypic parameters. Multiparametric analysis was used to evaluate the effect of compounds on tissue morphology. We applied this screening platform to measure the activity and selectivity of inhibitors of the c-Met and epidermal growth factor (EGF) receptor (EGFR) tyrosine kinases in 3D cultured prostate carcinoma cells. c-Met and EGFR activity was quantified based on the phenotypic profiles induced by their respective ligands, hepatocyte growth factor and EGF. The screening method was applied to a novel collection of 80 putative inhibitors of c-Met and EGFR. Compounds were identified that induced phenotypic profiles indicative of selective inhibition of c-Met, EGFR, or bispecific inhibition of both targets. In conclusion, we describe a fully scalable high-content screening platform that uses phenotypic profiling to discriminate selective and nonselective (off-target) inhibitors in a physiologically relevant 3D cell culture setting.
dc.relation.ispartof urn:issn:1087-0571
dc.title Development of a 3D Tissue Culture-Based High-Content Screening Platform That Uses Phenotypic Profiling to Discriminate Selective Inhibitors of Receptor Tyrosine Kinases.
dc.type Journal Article
dc.date.updated 2018-04-30T19:48:53Z
dc.language.rfc3066 en
dc.identifier.mtmt 3169835
dc.identifier.wos 000384469400004
dc.identifier.pubmed 27412535
dc.contributor.department SE/GYTK/Gyógyszerészi Kémiai Intézet
dc.contributor.department SE/AOK/I/OVMBPI/MTA-SE Pathobiokémiai Kutatócsoport
dc.contributor.institution Semmelweis Egyetem
dc.mtmt.swordnote Tijmen H. Booij and Maarten J. D. Klop contributed equally to this work.


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