Toward In Vitro Epigenetic Drug Design for Thyroid Cancer: The Promise of PF-03814735, an Aurora Kinase Inhibitor

Toward In Vitro Epigenetic Drug Design for Thyroid Cancer: The Promise of PF-03814735, an Aurora Kinase Inhibitor

Thyroid cancer (TC) is a very common malignancy worldwide. Chief among the innovative molecular drug targets for TC are epigenetic modifications. Increased telomerase activity in cancer cells makes telomerase a novel target for epigenetic anticancer drug innovation. Recently, telomerase reverse tran...

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Bibliographic Details
Published in:Omics (Larchmont, N.Y.) Vol. 23; no. 10; p. 486
Main Authors: Dalva-Aydemir, Sevim, Akyerli, Cemaliye Boylu, Yüksel, Şirin Kılıçturgay, Keskin, Hilal, Yakıcıer, Mustafa Cengiz
Format: Journal Article
Language:English
Published: United States 01-10-2019
Subjects:
Antineoplastic Agents - chemistry
Antineoplastic Agents - pharmacology
Aurora Kinases - antagonists & inhibitors
Aurora Kinases - chemistry
Biomarkers, Tumor
Cell Line, Tumor
Drug Design
Epigenesis, Genetic - drug effects
Humans
Mutation
Protein Kinase Inhibitors - chemistry
Protein Kinase Inhibitors - pharmacology
Telomerase - genetics
Thyroid Neoplasms
thyroid cancer
Aurora kinase inhibitor
telomerase
PF-03814735
drug design
epigenetics
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Summary:Thyroid cancer (TC) is a very common malignancy worldwide. Chief among the innovative molecular drug targets for TC are epigenetic modifications. Increased telomerase activity in cancer cells makes telomerase a novel target for epigenetic anticancer drug innovation. Recently, telomerase reverse transcriptase ( ) gene promoter ( ) mutations (C228T and C250T) were reported at high frequency in TC cell lines and tumor biopsies. In this study, three representative TC cell lines, mutant (TPC1), mutant / (KTC2), and wild-type (WRO), were screened with a drug library composed of 51 epigenetic drugs: 14 Aurora kinase inhibitors; 23 histone deacetylase inhibitors; 5 sirtuin modifiers; 3 hypoxia-inducible factor inhibitors; 2 DNA methyltransferase inhibitors; 2 histone methyltransferase inhibitors, a histone demethylase inhibitor, and a bromodomain inhibitor. Effects of the drugs on cell growth at 48 and 72 h were compared. PF-03814735, a small-molecule inhibitor of Aurora kinase A (IC  = 0.8 nM) and B (IC  = 5 nM), was the most potent on KTC2 cells, whereas CUDC-101, a multitarget inhibitor, was effective on both WRO and KTC2 cells. Notably, PF-03814735 was found to be the most effective epigenetic drug on cell lines harboring the C228T mutation. In conclusion, these new findings offer specific guidance on dose and time course selection to design novel therapeutic interventions against TC using PF-03814735, and specifically target cells carrying the mutation. In a larger context of drug discovery science, these findings inform new strategies to forecast optimal treatment regimens for TC, particularly with Aurora kinase inhibitors and in ways guided by epigenetic drug design.
ISSN:1557-8100
DOI:10.1089/omi.2019.0050