Nuclear lamin stiffness is a barrier to 3D migration, but softness can limit survival
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Abstract
Cell migration through solid tissue often involves large contortions of the nucleus, but biological significance is largely unclear. The nucleoskeletal protein lamin-A varies both within and between cell types and was shown here to contribute to cell sorting and survival in migration through constraining micropores. Lamin-A proved rate-limiting in 3D migration of diverse human cells that ranged from glioma and adenocarcinoma lines to primary mesenchymal stem cells (MSCs). Stoichiometry of A- to B-type lamins established an activation barrier, with high lamin-A:B producing extruded nuclear shapes after migration. Because the juxtaposed A and B polymer assemblies respectively conferred viscous and elastic…
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10Topics & keywords
Topics
Keywords
- Lamin
- Biology
- Nuclear lamina
- Cell biology
- Cell migration
- Nucleus
- Stem cell
- Cell
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