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Literature DB >> 25901323

Direct force probe reveals the mechanics of nuclear homeostasis in the mammalian cell.

Srujana Neelam¹, T J Chancellor², Yuan Li², Jeffrey A Nickerson³, Kyle J Roux⁴, Richard B Dickinson², Tanmay P Lele⁵.

Abstract

How cells maintain nuclear shape and position against various intracellular and extracellular forces is not well understood, although defects in nuclear mechanical homeostasis are associated with a variety of human diseases. We estimated the force required to displace and deform the nucleus in adherent living cells with a technique to locally pull the nuclear surface. A minimum pulling force of a few nanonewtons--far greater than typical intracellular motor forces--was required to significantly displace and deform the nucleus. Upon force removal, the original shape and position were restored quickly within a few seconds. This stiff, elastic response required the presence of vimentin, lamin A/C, and SUN (Sad1p, UNC-84)-domain protein linkages, but not F-actin or microtubules. Although F-actin and microtubules are known to exert mechanical forces on the nuclear surface through molecular motor activity, we conclude that the intermediate filament networks maintain nuclear mechanical homeostasis against localized forces.

Entities: Gene Species

Keywords: cytoskeleton; nuclear forces; nuclear mechanics; nuclear positioning; nuclear shape

Mesh：

Substances：

Year: 2015 PMID： 25901323 PMCID： PMC4426403 DOI： 10.1073/pnas.1502111112

Source DB: PubMed Journal: Proc Natl Acad Sci U S A ISSN： 0027-8424 Impact factor: 11.205

31 in total

1. Lamins A and C but not lamin B1 regulate nuclear mechanics.

Authors: Jan Lammerding; Loren G Fong; Julie Y Ji; Karen Reue; Colin L Stewart; Stephen G Young; Richard T Lee
Journal: J Biol Chem Date: 2006-07-05 Impact factor: 5.157

2. Anisotropy of cell adhesive microenvironment governs cell internal organization and orientation of polarity.

Authors: Manuel Théry; Victor Racine; Matthieu Piel; Anne Pépin; Ariane Dimitrov; Yong Chen; Jean-Baptiste Sibarita; Michel Bornens
Journal: Proc Natl Acad Sci U S A Date: 2006-12-18 Impact factor: 11.205

3. Here come the SUNs: a nucleocytoskeletal missing link.

Authors: Howard J Worman; Gregg G Gundersen
Journal: Trends Cell Biol Date: 2006-01-06 Impact factor: 20.808

4. Interaction of a DNA intercalator DRAQ5, and a minor groove binder SYTO17, with chromatin in live cells--influence on chromatin organization and histone-DNA interactions.

Authors: Krzysztof Wojcik; Jurek W Dobrucki
Journal: Cytometry A Date: 2008-06 Impact factor: 4.355

5. Actomyosin pulls to advance the nucleus in a migrating tissue cell.

Authors: Jun Wu; Ian A Kent; Nandini Shekhar; T J Chancellor; Agnes Mendonca; Richard B Dickinson; Tanmay P Lele
Journal: Biophys J Date: 2014-01-07 Impact factor: 4.033

6. Watching nuclei move: Insights into how kinesin-1 and dynein function together.

Authors: Daniel A Starr
Journal: Bioarchitecture Date: 2011-01

7. Dynein drives nuclear rotation during forward progression of motile fibroblasts.

Authors: Jennifer R Levy; Erika L F Holzbaur
Journal: J Cell Sci Date: 2008-09-09 Impact factor: 5.285

8. Generation of compartmentalized pressure by a nuclear piston governs cell motility in a 3D matrix.

Authors: Ryan J Petrie; Hyun Koo; Kenneth M Yamada
Journal: Science Date: 2014-08-29 Impact factor: 47.728

9. Vimentin induces changes in cell shape, motility, and adhesion during the epithelial to mesenchymal transition.

Authors: Melissa G Mendez; Shin-Ichiro Kojima; Robert D Goldman
Journal: FASEB J Date: 2010-01-22 Impact factor: 5.191

Review 10. KASHing up with the nucleus: novel functional roles of KASH proteins at the cytoplasmic surface of the nucleus.

Authors: G W Gant Luxton; Daniel A Starr
Journal: Curr Opin Cell Biol Date: 2014-04-03 Impact factor: 8.382

61 in total

Review 1. Dynamic, mechanical integration between nucleus and cell- where physics meets biology.

Authors: Richard B Dickinson; Srujana Neelam; Tanmay P Lele
Journal: Nucleus Date: 2015 Impact factor: 4.197

2. Nesprin-2G, a Component of the Nuclear LINC Complex, Is Subject to Myosin-Dependent Tension.

Authors: Paul T Arsenovic; Iswarya Ramachandran; Kranthidhar Bathula; Ruijun Zhu; Jiten D Narang; Natalie A Noll; Christopher A Lemmon; Gregg G Gundersen; Daniel E Conway
Journal: Biophys J Date: 2016-01-05 Impact factor: 4.033

Review 3. Combating osteoporosis and obesity with exercise: leveraging cell mechanosensitivity.

Authors: Gabriel M Pagnotti; Maya Styner; Gunes Uzer; Vihitaben S Patel; Laura E Wright; Kirsten K Ness; Theresa A Guise; Janet Rubin; Clinton T Rubin
Journal: Nat Rev Endocrinol Date: 2019-06 Impact factor: 43.330

Review 4. The assembly and function of perinuclear actin cap in migrating cells.

Authors: Miloslava Maninova; Josef Caslavsky; Tomas Vomastek
Journal: Protoplasma Date: 2017-01-18 Impact factor: 3.356

Review 5. Chromatin's physical properties shape the nucleus and its functions.

Authors: Andrew D Stephens; Edward J Banigan; John F Marko
Journal: Curr Opin Cell Biol Date: 2019-03-16 Impact factor: 8.382

6. Probing cytoskeletal pre-stress and nuclear mechanics in endothelial cells with spatiotemporally controlled (de-)adhesion kinetics on micropatterned substrates.

Authors: Marie Versaevel; Maryam Riaz; Tobias Corne; Thomas Grevesse; Joséphine Lantoine; Danahe Mohammed; Céline Bruyère; Laura Alaimo; Winnok H De Vos; Sylvain Gabriele
Journal: Cell Adh Migr Date: 2016-04-25 Impact factor: 3.405