Chromatin regulators are highly altered in diseases. Of interest, these proteins are easily targetable by drugs. Furthermore, the plasticity of epigenetic events makes them a powerful target for new therapeutic strategies and reversion of disease phenotype. Histone and DNA modifications influence many processes including transcription, replication, genomic stability and cell division, which are altered in diseases. Therefore, understanding the molecular basis of chromatin modifiers in both normal and pathological cells could help us frame new potential biomarkers and targeted therapies.
My long-term interest lies in understanding the impact chromatin modifiers have on disease development and progression so that more optimal therapeutic opportunities can be achieved. My laboratory explores the direct molecular impact of chromatin-modifying enzymes during cell cycle progression, and characterizes the unappreciated and unconventional roles that these chromatin factors have on cytoplasmic function such as protein synthesis. By gaining molecular understanding into the mechanism of action of chromatin modifiers in normal and pathological cells, we will improve our basic knowledge and provide needed insights into new potential targeted therapies in diseases.