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Literature DB >> 19479819

The hard life of soft cells.

Paul A Janmey¹, Jessamine P Winer, Maria E Murray, Qi Wen.

Abstract

Cells are mechanical as well as chemical machines, and much of the energy they consume is used to apply forces to each other and to the extracellular matrix around them. The cytoskeleton, the cell membrane, and the macromolecules composing the extracellular matrix form networks that in concert with the forces generated by the cell create dynamic materials with viscoelastic properties unique to each tissue. Numerous recent studies suggest that the forces that cells create and are subjected to, as well as the mechanical properties of the materials to which they adhere, can have large effects on cell structure and function that can act in concert with or override signals from soluble stimuli. This brief review summarizes recent studies of the effects of substrate mechanics on cell motility, differentiation, and proliferation, and discusses possible mechanisms by which a cell can probe the stiffness of its surroundings. Cell Motil. Cytoskeleton, 2009. (c) 2009 Wiley-Liss, Inc.

Entities: CellLine Chemical Disease Gene Species

Mesh：

Year: 2009 PMID： 19479819 PMCID： PMC2895969 DOI： 10.1002/cm.20382

Source DB: PubMed Journal: Cell Motil Cytoskeleton ISSN： 0886-1544

59 in total

Review 1. Tissue cells feel and respond to the stiffness of their substrate.

Authors: Dennis E Discher; Paul Janmey; Yu-Li Wang
Journal: Science Date: 2005-11-18 Impact factor: 47.728

2. Matrices with compliance comparable to that of brain tissue select neuronal over glial growth in mixed cortical cultures.

Authors: Penelope C Georges; William J Miller; David F Meaney; Evelyn S Sawyer; Paul A Janmey
Journal: Biophys J Date: 2006-02-03 Impact factor: 4.033

3. Mechanically activated integrin switch controls alpha5beta1 function.

Authors: Julie C Friedland; Mark H Lee; David Boettiger
Journal: Science Date: 2009-01-30 Impact factor: 47.728

4. Directing osteogenic and myogenic differentiation of MSCs: interplay of stiffness and adhesive ligand presentation.

Authors: Andrew S Rowlands; Peter A George; Justin J Cooper-White
Journal: Am J Physiol Cell Physiol Date: 2008-08-27 Impact factor: 4.249

5. The compliance of collagen gels regulates transforming growth factor-beta induction of alpha-smooth muscle actin in fibroblasts.

Authors: P D Arora; N Narani; C A McCulloch
Journal: Am J Pathol Date: 1999-03 Impact factor: 4.307

6. Embryonic cardiomyocytes beat best on a matrix with heart-like elasticity: scar-like rigidity inhibits beating.

Authors: Adam J Engler; Christine Carag-Krieger; Colin P Johnson; Matthew Raab; Hsin-Yao Tang; David W Speicher; Joseph W Sanger; Jean M Sanger; Dennis E Discher
Journal: J Cell Sci Date: 2008-10-28 Impact factor: 5.285

7. The covalent attachment of adhesion molecules to silicone membranes for cell stretching applications.

Authors: Pierre-Jean Wipff; Hicham Majd; Chitrangada Acharya; Lara Buscemi; Jean-Jacques Meister; Boris Hinz
Journal: Biomaterials Date: 2008-12-27 Impact factor: 12.479

8. Absence of filamin A prevents cells from responding to stiffness gradients on gels coated with collagen but not fibronectin.

Authors: Fitzroy J Byfield; Qi Wen; Ilya Levental; Kerstin Nordstrom; Paulo E Arratia; R Tyler Miller; Paul A Janmey
Journal: Biophys J Date: 2009-06-17 Impact factor: 4.033

9. The regulation of osteogenesis by ECM rigidity in MC3T3-E1 cells requires MAPK activation.

Authors: Chirag B Khatiwala; Shelly R Peyton; Mark Metzke; Andrew J Putnam
Journal: J Cell Physiol Date: 2007-06 Impact factor: 6.384

10. Stretching single talin rod molecules activates vinculin binding.

Authors: Armando del Rio; Raul Perez-Jimenez; Ruchuan Liu; Pere Roca-Cusachs; Julio M Fernandez; Michael P Sheetz
Journal: Science Date: 2009-01-30 Impact factor: 63.714

57 in total

1. Hysteresis in the cell response to time-dependent substrate stiffness.

Authors: Achim Besser; Ulrich S Schwarz
Journal: Biophys J Date: 2010-07-07 Impact factor: 4.033

Review 2. Cell mechanics and the cytoskeleton.

Authors: Daniel A Fletcher; R Dyche Mullins
Journal: Nature Date: 2010-01-28 Impact factor: 49.962

Review 3. Flexible and stretchable micro-electrodes for in vitro and in vivo neural interfaces.

Authors: Stéphanie P Lacour; Samia Benmerah; Edward Tarte; James FitzGerald; Jordi Serra; Stephen McMahon; James Fawcett; Oliver Graudejus; Zhe Yu; Barclay Morrison
Journal: Med Biol Eng Comput Date: 2010-06-10 Impact factor: 2.602

4. A Chemomechanical Model of Matrix and Nuclear Rigidity Regulation of Focal Adhesion Size.

Authors: Xuan Cao; Yuan Lin; Tristian P Driscoll; Janusz Franco-Barraza; Edna Cukierman; Robert L Mauck; Vivek B Shenoy
Journal: Biophys J Date: 2015-11-03 Impact factor: 4.033

5. Cell-ECM traction force modulates endogenous tension at cell-cell contacts.

Authors: Venkat Maruthamuthu; Benedikt Sabass; Ulrich S Schwarz; Margaret L Gardel
Journal: Proc Natl Acad Sci U S A Date: 2011-03-07 Impact factor: 11.205

Review 6. What do we know about mechanical strain in lung alveoli?

Authors: Esra Roan; Christopher M Waters
Journal: Am J Physiol Lung Cell Mol Physiol Date: 2011-08-26 Impact factor: 5.464

7. Role played by Prx1-dependent extracellular matrix properties in vascular smooth muscle development in embryonic lungs.

Authors: Kaori Ihida-Stansbury; Juliana Ames; Mithil Chokshi; Norman Aiad; Sonali Sanyal; Kimihito C Kawabata; Ilya Levental; Harini G Sundararaghavan; Jason A Burdick; Paul Janmey; Kohei Miyazono; Rebecca G Wells; Peter L Jones
Journal: Pulm Circ Date: 2015-06 Impact factor: 3.017