Sue Ping Lim scite author profile

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Specific-site methylation of tumour suppressor ANKRD11 in breast cancer

Lim¹,

Wong²,

Suetani³

et al. 2012

European Journal of Cancer

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The Application of Delivery Systems for DNA Methyltransferase Inhibitors

Lim

Neilsen²,

Kumar³

et al. 2011

BioDrugs

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DNA methylation, which often occurs at the cytosine residue of cytosine-guanine dinucleotides, is critical for the control of gene expression and mitotic inheritance in eukaryotes. DNA methylation silences gene expression either by directly hindering the access of transcription factors to the target DNA, or through recruitment of histone deacetylases to remodel the chromatin structure to an inactive state. Aberrant hypermethylation of tumor suppressor genes is commonly associated with the development of cancer. A number of anti-cancer agents have been developed that function through demethylation, reversing regional hypermethylation to restore the expression of tumor suppressor genes. Azacitidine and decitabine are used in the clinic, but their applications are limited to myelodysplastic syndrome and other blood-related diseases. Despite the potency of these drugs, their broader clinical application is restricted by cytotoxicity, nonspecific targeting, structural instability, catabolism, and poor bioavailability. Further improvements in the delivery systems for these drugs could overcome the issues associated with inefficient bioavailability, whilst facilitating the administration of combinations of demethylating agents and histone deacetylase inhibitors to enhance efficacy. This review focuses on the current limitations of existing demethylating agents and highlights possible approaches using recent developments in drug delivery systems to improve the clinical potential of these drugs.

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Development of a novel cell-based assay system EPISSAY for screening epigenetic drugs and liposome formulated decitabine

et al. 2013

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BackgroundDespite 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.MethodsA 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.ResultsFollowing 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.ConclusionsThe EPISSAY bioassay system provides a novel and rapid system to compare the efficiencies of existing and newly formulated drugs that reactivate gene expression.

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Sue Ping Lim

Mutant p53 drives invasion in breast tumors through up-regulation of miR-155

Specific-site methylation of tumour suppressor ANKRD11 in breast cancer

The Application of Delivery Systems for DNA Methyltransferase Inhibitors

Development of a novel cell-based assay system EPISSAY for screening epigenetic drugs and liposome formulated decitabine

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