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Thomas T. Egelhoff, PhD

Staff, Cellular and Molecular Medicine 216.445.9912 (o) 216.444.9404 (f)

Member, Molecular Oncology Program


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Research in the Egelhoff lab focuses on dissecting the cellular machinery that drives cell migration and invasion, with emphasis on understanding the roles and regulation of myosin II.  Studies in the lab are currently focused on understanding myosin II functions and regulation during cancer progression and invasive migration by cancer cells.  We recently discovered novel and dramatic regulation of myosin II expression and activation when mammary gland epithelial cells respond to the cytokine TGFß - a stimulus that promotes epithelial-to-mesenchymal-transition (EMT).  These studies have revealed a critical role for specific myosin II isoforms in invasive migration in breast epithelial cells and in breast cancer cells, a role that we are currently trying to understand at the cellular and biophysical levels. 

We use an array of biochemical, cellular, and live cell imaging approaches in our work, with emphasis on dynamic reporter tools such as GFP fusions and fluorescent recovery after photobleaching (FRAP).  We use an array of biophysical tools to understand cellular force production, such as cellular responses in engineered microfluidics chemotaxis chambers, engineered “tunable” migration substrates where microenvironment stiffness can be controlled, and use of fluorescent-bead impregnated flexible migration substrates that allow quantitation of cellular force production with micron resolution. 

To implement these approaches and apply them to clinically relevant questions, we have engaged a team of ongoing collaborators that include biomedical engineers, biophysicists, and clinical pathologists.  These collaborations facilitate a unique, innovative, and interdisciplinary approach to our studies.