1. What is the problem/issue being addressed?
The clinical management of cancers involves the use of drugs including small molecules that target genomic DNA, to elicit DNA damage and cell death.
The efficacy of these treatments varies between cancers, between patients, and evolve during treatment.
It is, as yet, no entirely clear why or how cancer cells evolve to become refractory to genotoxic drugs.
An interesting work hypothesis is that chromatin, the complex between genomic DNA and histone proteins, defines genomic sites of action of these drugs.
Given that the chromatin status varies between cell lines and individuals, it would explain, at least in part, how cancer cells modify chromatin structure to become refractory to these drugs.
2. What is the problem/issue being addressed?
Technologies designed to assess genome targeting with small molecules including DNA sequencing and cell imaging, could be highly valuable.
In particular, these technologies may help delineate mechanisms of action in a patient-dependent manner (e.g. help assess variability of drug effects between samples), and hopefully help predict drug responses.
3. What are the overall objectives?
The objectives of the program are to design and synthesize clickable small molecules and develop molecular-based strategies to visualize genotoxic and other drugs in cells post-treatment by fluorescence microscopy and/or to pull-down genomic targets to be subjected to deep sequencing.
We anticipate that data gathered from these technologies will help understand, predict and rewire drug responses, providing the means for personalized medicine.