Development of a novel cell-based assay system EPISSAY for screening epigenetic drugs and liposome formulated decitabine
Version 2 2023-03-28, 05:41Version 2 2023-03-28, 05:41
Version 1 2021-01-16, 16:11Version 1 2021-01-16, 16:11
journal contribution
posted on 2023-03-28, 05:41 authored by SP Lim, R Kumar, Y Akkamsetty, W Wang, K Ho, Paul NeilsenPaul Neilsen, DJ Walther, RJ Suetani, C Prestidge, DF CallenBackground: Despite the potential of improving the delivery of epigenetic drugs, the subsequent assessment of changes in their epigenetic activity is largely dependent on the availability of a suitable and rapid screening bioassay. Here, we describe a cell-based assay system for screening gene reactivation.Methods: A cell-based assay system (EPISSAY) was designed based on a silenced triple-mutated bacterial nitroreductase TMnfsB fused with Red-Fluorescent Protein (RFP) expressed in the non-malignant human breast cell line MCF10A. EPISSAY was validated using the target gene TXNIP, which has previously been shown to respond to epigenetic drugs. The potency of a epigenetic drug model, decitabine, formulated with PEGylated liposomes was also validated using this assay system.Results: Following treatment with DNA methyltransferase (DNMT) and histone deacetylase (HDAC) inhibitors such as decitabine and vorinostat, increases in RFP expression were observed, indicating expression of RFP-TMnfsB. The EPISSAY system was then used to test the potency of decitabine, before and after PEGylated liposomal encapsulation. We observed a 50% higher potency of decitabine when encapsulated in PEGylated liposomes, which is likely to be due to its protection from rapid degradation.Conclusions: The EPISSAY bioassay system provides a novel and rapid system to compare the efficiencies of existing and newly formulated drugs that reactivate gene expression. © 2013 Lim et al.; licensee BioMed Central Ltd.
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Volume
13Start Page
113 -1End Page
113-11Number of Pages
11eISSN
1471-2407Publisher
BioMed Central Ltd.Publisher DOI
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CC BY 2.0Peer Reviewed
- Yes
Open Access
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External Author Affiliations
University of Adelaide; Women’s & Children’s Health Research Institute Inc; University of South Australia; Max Planck Institute for Molecular GeneticsEra Eligible
- Yes
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