Regulation of cytoskeletal mechanics and cell growth by myosin light chain phosphorylation

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Regulation of cytoskeletal mechanics and cell growth by myosin light chain phosphorylation

Shuang Cai¹, Lidija Pestic-Dragovich¹, Martha E. O'Donnell², Ning Wang³, Donald Ingber⁴, Elliot Elson⁵, and Primal De Lanerolle¹

¹ Department of Physiology and Biophysics, University of Illinois at Chicago, Chicago, Illinois 60612-7342; ² Department of Human Physiology, University of California, Davis, California 95616-8644; ³ Physiology Program, Harvard University School of Public Health, Boston, 02115-6021; ⁴ Departments of Pathology and Surgery, Children's Hospital and Harvard University Medical School, Boston, Massachusetts 02116-5737; and ⁵ Department of Biophysics and Molecular Biophysics, Washington University Medical School, St. Louis, Missouri 63110-1093

The role of myosin light chain phosphorylation in regulating the mechanical properties of the cytoskeleton was studied inNIH/3T3 fibroblasts expressing a truncated, constitutively activeform of smooth muscle myosin light chain kinase (tMK). Cytoskeletalstiffness determined by quantifying the force required to indentthe apical surface of adherent cells showed that stiffness wasincreased twofold in tMK cells compared with control cells expressingthe empty plasmid (Neo cells). Cytoskeletal stiffness quantifiedusing magnetic twisting cytometry showed an ~1.5-fold increasein stiffness in tMK cells compared with Neo cells. Electronicvolume measurements on cells in suspension revealed that tMK cellshad a smaller volume and are more resistant to osmotic swellingthan Neo cells. tMK cells also have smaller nuclei, and activationof mitogen-activated protein kinase (MAP kinase) and translocationof MAP kinase to the nucleus are slower in tMK cells than in controlcells. In tMK cells, there is also less bromodeoxyuridine incorporation,and the doubling time is increased. These data demonstrate thatincreased myosin light chain phosphorylation correlates with increasedcytoskeletal stiffness and suggest that changing the mechanicalcharacteristics of the cytoskeleton alters the intracellular signalingpathways that regulate cell growth and division.

cell stiffness; osmotic swelling; volume regulation; mitogen-activated protein kinase activation; cell division; myosin light chain kinase

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