Contractile forces during cancer cell migration in a 3-D connective tissue matrix (Fortsetzungsprojekt) The general aim of the proposed project is to characterize the mechanical forces that cancer cells generate during their migration through a 3-dimensional connective tissue matrix. We propose two specific aims. The first aim is to develop a method for measuring the tractions that single cells exert on their surroundings during migration in a connective tissue matrix. The second aim is to test the hypothesis that cancer cell migration in a connective tissue matrix is augmented by the ability to generate higher forces. We will analyze the relationship between force generation and tumor cell invasion as a function of matrix stiffness, matrix protein concentration, mesh-size of the matrix scaffold, and pericellular proteolysis. These data will help us to understand the role of force generation for tumor invasion, and may help explain tumor-specific differences regarding invasiveness and tissue preferences during metastasis formation. | Projektleitung: Prof. Dr. Ben Fabry
Beteiligte: Dr. rer. nat. Claudia Mierke, James P. Butler
Laufzeit: 1.7.2010 - 30.6.2013
Förderer: Deutsche Forschungsgemeinschaft
Mitwirkende Institutionen: Harvard University, Harvard School of Public Health
Kontakt: Fabry, Ben Telefon +49 (0) 9131 85-25610, Fax +49 (0) 9131 85-25601, E-Mail: bfabry@biomed.uni-erlangen.de
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