We are studying tissue integrity and repair to develop innovative approaches for regenerative medicine and cancer prevention. We concentrate on highly regenerative (endometrial and intestinal) tissues and are particularly interested in how persistent inflammation influences the breakdown of biochemical pathways that oversee genome stability, stem cell plasticity, and cell adhesions and how these events influence future tissue repair and onset of disease, such as cancer. Projects employ a variety of molecular, cellular, biochemical, genetic, and machine learning techniques that span across cell culture systems, genetically engineered mouse models, and human tissues to understand the impact of acute and chronic inflammation on cell division, cytoskeletal dynamics, and DNA repair in regenerating epithelial cells.