iScience (Oct 2023)

Enhanced cell viscosity: A new phenotype associated with lamin A/C alterations

  • Cécile Jebane,
  • Alice-Anaïs Varlet,
  • Marc Karnat,
  • Lucero M. Hernandez- Cedillo,
  • Amélie Lecchi,
  • Frédéric Bedu,
  • Camille Desgrouas,
  • Corinne Vigouroux,
  • Marie-Christine Vantyghem,
  • Annie Viallat,
  • Jean-François Rupprecht,
  • Emmanuèle Helfer,
  • Catherine Badens

Journal volume & issue
Vol. 26, no. 10
p. 107714

Abstract

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Summary: Lamin A/C is a well-established key contributor to nuclear stiffness and its role in nucleus mechanical properties has been extensively studied. However, its impact on whole-cell mechanics has been poorly addressed, particularly concerning measurable physical parameters. In this study, we combined microfluidic experiments with theoretical analyses to quantitatively estimate the whole-cell mechanical properties. This allowed us to characterize the mechanical changes induced in cells by lamin A/C alterations and prelamin A accumulation resulting from atazanavir treatment or lipodystrophy-associated LMNA R482W pathogenic variant. Our results reveal a distinctive increase in long-time viscosity as a signature of cells affected by lamin A/C alterations. Furthermore, they show that the whole-cell response to mechanical stress is driven not only by the nucleus but also by the nucleo-cytoskeleton links and the microtubule network. The enhanced cell viscosity assessed with our microfluidic assay could serve as a valuable diagnosis marker for lamin-related diseases.

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