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  • Nuclear decoupling is part of a rapid protein-level cellular response to high-intensity mechanical loading.

Nuclear decoupling is part of a rapid protein-level cellular response to high-intensity mechanical loading.

Nature communications (2019-09-14)
Hamish T J Gilbert, Venkatesh Mallikarjun, Oana Dobre, Mark R Jackson, Robert Pedley, Andrew P Gilmore, Stephen M Richardson, Joe Swift
RESUMO

Studies of cellular mechano-signaling have often utilized static models that do not fully replicate the dynamics of living tissues. Here, we examine the time-dependent response of primary human mesenchymal stem cells (hMSCs) to cyclic tensile strain (CTS). At low-intensity strain (1 h, 4% CTS at 1 Hz), cell characteristics mimic responses to increased substrate stiffness. As the strain regime is intensified (frequency increased to 5 Hz), we characterize rapid establishment of a broad, structured and reversible protein-level response, even as transcription is apparently downregulated. Protein abundance is quantified coincident with changes to protein conformation and post-translational modification (PTM). Furthermore, we characterize changes to the linker of nucleoskeleton and cytoskeleton (LINC) complex that bridges the nuclear envelope, and specifically to levels and PTMs of Sad1/UNC-84 (SUN) domain-containing protein 2 (SUN2). The result of this regulation is to decouple mechano-transmission between the cytoskeleton and the nucleus, thus conferring protection to chromatin.

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DAPI, for nucleic acid staining
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Tetraethylammonium borohydride, technical, ≥95% (T)
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ANTI-SUN2 antibody produced in rabbit, Prestige Antibodies® Powered by Atlas Antibodies, affinity isolated antibody, buffered aqueous glycerol solution
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ANTI-SUN1 antibody produced in rabbit, Ab2, Prestige Antibodies® Powered by Atlas Antibodies, affinity isolated antibody, buffered aqueous glycerol solution