Synthesis and evaluation of supramolecular chemical tools to study and disrupt epigenetic pathways
Date
2014-04-28
Authors
Daze, Kevin Douglas
Journal Title
Journal ISSN
Volume Title
Publisher
Abstract
p-Sulfonatocalix[X]arene (X = 4 and 6) was explored as a host for trimethyllyated lysine. We found by 1H NMR and ITC titrations that p-sulfonatocalix[4]arene (PSC) bound the trimethyllysine amino acid with high affinity and good selectivity over dimethyllysine and similar dimethylated arginines. When trimethyllysine was in the context of a peptide of the histone 3 tail, affinities increased and PSC was up to 20 -fold selective over identical unmethylated peptides.
Multiple scaffolds were synthetically explored as derivatives of PSC. I created five different scaffolds and synthesized a small library of compounds derived from these scaffolds as hosts for a variety of histone 3 peptides containing biologically important post-translationally modified amino acids. This library was tested using a high-throughput indicator displacement assay and I found three hosts that displayed tuned affinities and selectivities for post-translationally modified amino acids we had not previously targeted.
I studied the ability of these synthetically elaborated calix[4]arenes to identify histone PTMs and monitor an enzymatic reaction. I found covalently linked fluorescent calixarenes were able to accomplish this goal. Furthermore, we studied the ability of these calix[4]arenes to disrupt protein-protein interactions that occur between the trimethyllyated lysine on histone tails and proteins that read these sites. I found that these calixarenes could disrupt these interactions between a variety of proteins and trimethyllyated lysine sites.
These calix[4]arenes show promise as chemical tools that could be used to further probe epigenetic pathways in vitro and further work is needed to explore their utility in cellular assays and in vivo.
Description
Keywords
Medicinal Chemistry, Organic Chemistry, Supramolecular Chemistry, Epigenetics