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Transcript
Force Microscopy of Non-adherent Cells: A Comparison of Leukemia Cell Deformability Michael J. Rosenbluth, Wilbur A. Lam, and Daniel A. Fletcher Biophysical Journal, 2006 Sophie Wong 20.309, MIT November 20, 2008 Background • AFM used to quantify mechanical properties of biological material • Current methods for measuring elasticity and viscoelasticity – Require indentation of cells adhered to substrate – Not feasible for non-adherent cells • Increased stiffness of lymphocytes may be the cause of diabetes mellitus and leukemia Three Goals • Develop method for characterizing and comparing deformability of leukemia cells • Compare mechanical properties of –myeloid (HL60) and lymphoid (Jurkat) lines –normal neutrophils • Compare Hertzian Mechanics Model vs. Liquid Droplet Model Developing the Method • Used microfabricated wells to trap cells • Array of 8 – 20 µm diameter wells •Jurkat and HL60 cells trapped in 13.6 µm wells 50 µm 2 µm •Neutrophils trapped in 10.8 µm wells Deflection-position curve • Cantilever deflection small compared to indentation • Piezo platform extended at constant rate = 1506 nm/s HL60 • Deflect cantilever until ~ 800pN applied or cell indented 3 µm HL60s stiffer than Jurkat cells and neutrophils • consistent with a model of leukostasis 855 Pa 48 Pa 156 Pa • Stiffness contributes to vessel blockage Fitting the model • Models used to determine cell elasticity and viscoelasticity • Hertzian Mechanics Model assumptions – Homogeneous, Isotropic, Linear, Elastic (HILE) – Material undergoes infinitesimally small strains • Liquid Droplet Model assumptions – Internal contents are homogeneous viscous – Cortical tension constant around cell – Cortical shell deforms around tip during indentation – Radius of cell remains constant during indentation Hertzian Model fits better • Gray line = data • Dash line = Hertzian mechanics model • Dotted line = Liquid droplet model Significance & Future Studies • Deformability of leukemic cells plays important role in leukostasis • Where does difference in cell stiffness originate? – Filament networks? – Cytoplasm? – Nuclear or cell membranes? • Investigate other factors involved in leukostasis: adhesion, transmigration Questions?
