Decreased mechanical stiffness in LMNA-/- cells is caused by defective nucleo-cytoskeletal integrity: implications for the development of laminopathies

doi:10.1093/hmg/ddh295

Human Molecular Genetics Advance Access originally published online on September 14, 2004
Human Molecular Genetics 2004 13(21):2567-2580; doi:10.1093/hmg/ddh295

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Decreased mechanical stiffness in LMNA–/– cells is caused by defective nucleo-cytoskeletal integrity: implications for the development of laminopathies

Jos L.V. Broers¹^,2^,*, Emiel A.G. Peeters², Helma J.H. Kuijpers¹, Jorike Endert¹, Carlijn V.C. Bouten², Cees W.J. Oomens², Frank P.T. Baaijens² and Frans C.S. Ramaekers¹

¹Department of Molecular Cell Biology, Cardiovascular Research Institute Maastricht, University Maastricht, PO Box 616, 6200 MD Maastricht, The Netherlands and ²Department of Biomedical Engineering, Biomechanics and Tissue Engineering, Eindhoven University of Technology, The Netherlands

Received June 22, 2004; Accepted September 6, 2004

Laminopathies comprise a group of inherited diseases with variableclinical phenotypes, caused by mutations in the lamin A/C gene(LMNA). A prominent feature in several of these diseases ismuscle wasting, as seen in Emery–Dreifuss muscle dystrophy,dilated cardiomyopathy and limb-girdle muscular dystrophy. Althoughthe mechanisms underlying this phenotype remain largely obscure,two major working hypotheses are currently being investigated,namely, defects in gene regulation and/or abnormalities in nucleararchitecture causing cellular fragility. In this study, usinga newly developed cell compression device we have tested thelatter hypothesis. The device allows controlled applicationof mechanical load onto single living cells, with simultaneousvisualization of cellular deformation and quantitation of resistance.With the device, we have compared wild-type (MEF+/+) and LMNAknockout (MEF–/–) mouse embryonic fibroblasts (MEFs),and found that MEF–/– cells show a significantlydecreased mechanical stiffness and a significantly lower burstingforce. Partial rescue of the phenotype by transfection witheither lamin A or lamin C prevented gross nuclear disruption,as seen in MEF–/– cells, but was unable to fullyrestore mechanical stiffness in these cells. Our studies showa direct correlation between absence of LMNA proteins and nuclearfragility in living cells. Simultaneous recordings by confocalmicroscopy revealed that the nuclei in MEF–/– cells,in contrast to MEF+/+ cells, exhibited an isotropic deformationupon indentation, despite an anisotropic deformation of thecell as a whole. This nuclear behaviour is indicative for aloss of interaction of the disturbed nucleus with the surroundingcytoskeleton. In addition, careful investigation of the three-dimensionalorganization of actin-, vimentin- and tubulin-based filamentsshowed a disturbed interaction of these structures in MEF–/–cells. Therefore, we suggest that in addition to the loss ofnuclear stiffness, the loss of a physical interaction betweennuclear structures (i.e. lamins) and the cytoskeleton is causingmore general cellular weakness and emphasizes a potential keyfunction for lamins in maintaining cellular tensegrity.

^* To whom correspondence should be addressed at: Department of Molecular Cell Biology, Cardiovascular Research Institute, University Maastricht, PO Box 616, NL-6200 MD Maastricht, The Netherlands. Tel: +31 433881366; Fax: +31 433884151; Email: jos.broers{at}molcelb.unimaas.nl

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				M. Crisp, Q. Liu, K. Roux, J.B. Rattner, C. Shanahan, B. Burke, P. D. Stahl, and D. Hodzic Coupling of the nucleus and cytoplasm: role of the LINC complex J. Cell Biol., January 3, 2006; 172(1): 41 - 53. [Abstract] [Full Text] [PDF]

				S. G. Young, L. G. Fong, and S. Michaelis Thematic Review Series: Lipid Posttranslational Modifications. Prelamin A, Zmpste24, misshapen cell nuclei, and progeria--new evidence suggesting that protein farnesylation could be important for disease pathogenesis J. Lipid Res., December 1, 2005; 46(12): 2531 - 2558. [Abstract] [Full Text] [PDF]

				I. Filesi, F. Gullotta, G. Lattanzi, M. R. D'Apice, C. Capanni, A. M. Nardone, M. Columbaro, G. Scarano, E. Mattioli, P. Sabatelli, et al. Alterations of nuclear envelope and chromatin organization in mandibuloacral dysplasia, a rare form of laminopathy Physiol Genomics, October 17, 2005; 23(2): 150 - 158. [Abstract] [Full Text] [PDF]

				J. Lammerding, J. Hsiao, P. C. Schulze, S. Kozlov, C. L. Stewart, and R. T. Lee Abnormal nuclear shape and impaired mechanotransduction in emerin-deficient cells J. Cell Biol., August 29, 2005; 170(5): 781 - 791. [Abstract] [Full Text] [PDF]

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