EPIGENETICS,
METABOLISM AND AGING

Research focus

• To study how large histone variants called macroH2A1.1 and macroH2A1.2, splicing isoforms of macroH2A1, function as energy sensors and oncogenes in many cancer types and during induced pluripotent stem cells reprograming.
• To understand the role of a rejuvenating factor, identified through parabiotic screening called Growth Differentiation Factor 11 (GDF11) in nutrient metabolism in mice.
• Study of the variants of epigenetic enzyme SIRT6, which are involved in longer lifespan, as encountered in Ashkenazi Jews.

Main goals

• Study the epigenetic macroH2A1 isoforms and DNA-damage components of endothelial cells repro­graming into induced pluripotent stem cells (iPSC).
• Uncovering the side effects of the „youth factor“ GDF11 in obese mice and humans.
• Dissect the role of longevity-associated mutants of SIRT6 in hepatic metabolism.

Technological equipment

• Laboratory equipment for cell sorting, analysis, tissue characterization:
• Flow cytometer
• Cell sorter
• Multiphoton microscope
• Magnetic cell separator – mastering the complexity of cell processing
• Automatic cell analyzer
• Confocal laser scanning microscope suited for live imaging
• Laser microdissection microscope with PALM microbeam system
• Ultracentrifuge
• PCR and real-time PCR system