A sensitive microfluidic platform for a high throughput DNA methylation assay

Maria Ronen, Dorit Avrahami, Doron Gerber

Research output: Contribution to journalArticlepeer-review

23 Scopus citations

Abstract

DNA methylation is an epigenetic modification essential for normal development and maintenance of somatic biological functions. DNA methylation provides heritable, long-term chromatin regulation and the aberrant methylation pattern is associated with complex diseases including cancer. Discovering novel therapeutic targets demands development of high-throughput, sensitive and inexpensive screening platforms for libraries of chemical or biological matter involved in DNA methylation establishment and maintenance. Here, we present a universal, high-throughput, microfluidic-based fluorometric assay for studying DNA methylation in vitro. The enzymatic activity of bacterial HPAII DNA methyltransferase and its kinetic properties are measured using the assay (KDNAm = 5.8 nM, KSAMm = 9.8 nM and Kcat = 0.04 s-1). Using the same platform, we then demonstrate a two-step approach for high-throughput in vitro identification and characterization of small molecule inhibitors of methylation. The approach is examined using known non-nucleoside inhibitors, SGI-1027 and RG108, for which we measured IC50 of 4.5 μM and 87.5 nM, respectively. The dual role of the microfluidic-based methylation assay both for the quantitative characterization of enzymatic activity and high-throughput screening of non-nucleoside inhibitors coupled with quantitative characterization of the inhibition potential highlights the advantages of our system for epigenetic studies.

Original languageEnglish
Pages (from-to)2354-2362
Number of pages9
JournalLab on a Chip
Volume14
Issue number13
DOIs
StatePublished - 7 Jul 2014

Funding

FundersFunder number
European Commission309600

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