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Nuclear envelope mechanobiology: linking the nuclear structure and function.

Matthew GoelzerJulianna GoelzerMatthew L FergusonCorey P NeuGunes Uzer
Published in: Nucleus (Austin, Tex.) (2022)
The nucleus, central to cellular activity, relies on both direct mechanical input as well as its molecular transducers to sense external stimuli and respond by regulating intra-nuclear chromatin organization that determines cell function and fate. In mesenchymal stem cells of musculoskeletal tissues, changes in nuclear structures are emerging as a key modulator of their differentiation and proliferation programs. In this review we will first introduce the structural elements of the nucleoskeleton and discuss the current literature on how nuclear structure and signaling are altered in relation to environmental and tissue level mechanical cues. We will focus on state-of-the-art techniques to apply mechanical force and methods to measure nuclear mechanics in conjunction with DNA, RNA, and protein visualization in living cells. Ultimately, combining real-time nuclear deformations and chromatin dynamics can be a powerful tool to study mechanisms of how forces affect the dynamics of genome function.
Keyphrases
  • mesenchymal stem cells
  • single molecule
  • living cells
  • gene expression
  • dna damage
  • genome wide
  • transcription factor
  • stem cells
  • fluorescent probe
  • cell therapy
  • cell free