Ezrin regulates skin fibroblast size/mechanical properties and YAP-dependent proliferation

[1]  Jie Sun,et al.  Ezrin contributes to cervical cancer progression through induction of epithelial-mesenchymal transition , 2016, Oncotarget.

[2]  J. Voorhees,et al.  Reduction of fibroblast size/mechanical force down‐regulates TGF‐β type II receptor: implications for human skin aging , 2015, Aging cell.

[3]  Andreas Janshoff,et al.  Ezrin is a Major Regulator of Membrane Tension in Epithelial Cells , 2015, Scientific Reports.

[4]  T. Quan,et al.  Age-associated reduction of cell spreading induces mitochondrial DNA common deletion by oxidative stress in human skin dermal fibroblasts: implication for human skin connective tissue aging , 2015, Journal of Biomedical Science.

[5]  K. Guan,et al.  Disease implications of the Hippo/YAP pathway. , 2015, Trends in molecular medicine.

[6]  T. Quan,et al.  Role of Age-Associated Alterations of the Dermal Extracellular Matrix Microenvironment in Human Skin Aging: A Mini-Review , 2015, Gerontology.

[7]  Yunzhi Qin,et al.  Ezrin protein overexpression predicts the poor prognosis of pancreatic ductal adenocarcinomas. , 2015, Experimental and molecular pathology.

[8]  Kun-Liang Guan,et al.  The emerging roles of YAP and TAZ in cancer , 2015, Nature Reviews Cancer.

[9]  J. Voorhees,et al.  Age-associated reduction of cellular spreading/mechanical force up-regulates matrix metalloproteinase-1 expression and collagen fibril fragmentation via c-Jun/AP-1 in human dermal fibroblasts , 2014, Aging cell.

[10]  Y. Choi,et al.  Prognostic implications of ezrin and phosphorylated ezrin expression in non-small cell lung cancer , 2014, BMC Cancer.

[11]  F. Valderrama,et al.  ERM proteins in cancer progression , 2014, Journal of Cell Science.

[12]  Yulin Li,et al.  High expression of ezrin predicts poor prognosis in uterine cervical cancer , 2013, BMC Cancer.

[13]  J. Voorhees,et al.  Elevated Matrix Metalloproteinases and Collagen Fragmentation in Photodamaged Human Skin: Impact of Altered Extracellular Matrix Microenvironment on Dermal Fibroblast Function , 2012, The Journal of investigative dermatology.

[14]  J. Voorhees,et al.  Enhancing structural support of the dermal microenvironment activates fibroblasts, endothelial cells and keratinocytes in aged human skin in vivo , 2012, The Journal of investigative dermatology.

[15]  Zhenhua Lin,et al.  Ezrin overexpression predicts the poor prognosis of gastric adenocarcinoma , 2012, Diagnostic Pathology.

[16]  Youngsin Jung,et al.  Band 4.1 proteins regulate integrin-dependent cell spreading. , 2012, Biochemical and biophysical research communications.

[17]  J. Voorhees,et al.  Cysteine‐rich protein 61 (CCN1) mediates replicative senescence‐associated aberrant collagen homeostasis in human skin fibroblasts , 2012, Journal of cellular biochemistry.

[18]  I. Hariharan,et al.  The hippo pathway. , 2012, Cold Spring Harbor perspectives in biology.

[19]  Donald E. Ingber,et al.  Mechanosensitive mechanisms in transcriptional regulation , 2012, Journal of Cell Science.

[20]  Hua-Lin Wu,et al.  Thrombomodulin is an ezrin‐interacting protein that controls epithelial morphology and promotes collective cell migration , 2012, FASEB journal : official publication of the Federation of American Societies for Experimental Biology.

[21]  Hui Gao,et al.  Expression of ezrin correlates with malignant phenotype of lung cancer, and in vitro knockdown of ezrin reverses the aggressive biological behavior of lung cancer cells , 2012, Tumor Biology.

[22]  Hai Qi,et al.  Constitutively active ezrin increases membrane tension, slows migration, and impedes endothelial transmigration of lymphocytes in vivo in mice. , 2012, Blood.

[23]  R. Fehon,et al.  Ezrin, Radixin and Moesin: key regulators of membrane-cortex interactions and signaling. , 2011, Current opinion in cell biology.

[24]  Bin Zhao,et al.  The Hippo pathway in organ size control, tissue regeneration and stem cell self-renewal , 2011, Nature Cell Biology.

[25]  Nicola Elvassore,et al.  Role of YAP/TAZ in mechanotransduction , 2011, Nature.

[26]  M. Arpin,et al.  Emerging role for ERM proteins in cell adhesion and migration , 2011, Cell adhesion & migration.

[27]  A. Pobbati,et al.  Hippo Pathway-independent Restriction of TAZ and YAP by Angiomotin* , 2011, The Journal of Biological Chemistry.

[28]  D. Robinson,et al.  Cortical Mechanics and Meiosis II Completion in Mammalian Oocytes Are Mediated by Myosin-II and Ezrin-Radixin-Moesin (ERM) Proteins , 2010, Molecular biology of the cell.

[29]  Andrea I. McClatchey,et al.  Organizing the cell cortex: the role of ERM proteins , 2010, Nature Reviews Molecular Cell Biology.

[30]  Donald E Ingber,et al.  Cytoskeletal control of growth and cell fate switching. , 2009, Current opinion in cell biology.

[31]  Valerie M. Weaver,et al.  A tense situation: forcing tumour progression , 2009, Nature Reviews Cancer.

[32]  Daniel J. Muller,et al.  A bond for a lifetime: employing membrane nanotubes from living cells to determine receptor-ligand kinetics. , 2008, Angewandte Chemie.

[33]  James Varani,et al.  Looking older: fibroblast collapse and therapeutic implications. , 2008, Archives of dermatology.

[34]  C. Reverdy,et al.  Spatial recruitment and activation of the Fes kinase by ezrin promotes HGF‐induced cell scattering , 2008, The EMBO journal.

[35]  Y. Baba,et al.  Usefulness of the 5' region of the cDNA encoding acidic ribosomal phosphoprotein P0 conserved among rats, mice, and humans as a standard probe for gene expression analysis in different tissues and animal species. , 2007, Journal of biochemical and biophysical methods.

[36]  James Varani,et al.  In vivo stimulation of de novo collagen production caused by cross-linked hyaluronic acid dermal filler injections in photodamaged human skin. , 2007, Archives of dermatology.

[37]  J. Voorhees,et al.  Reduced fibroblast interaction with intact collagen as a mechanism for depressed collagen synthesis in photodamaged skin. , 2004, The Journal of investigative dermatology.

[38]  A. Gautreau,et al.  Ezrin regulates E-cadherin-dependent adherens junction assembly through Rac1 activation. , 2003, Molecular biology of the cell.

[39]  A. Bretscher,et al.  ERM proteins and merlin: integrators at the cell cortex , 2002, Nature Reviews Molecular Cell Biology.

[40]  James Monypenny,et al.  Ezrin is a downstream effector of trafficking PKC–integrin complexes involved in the control of cell motility , 2001, The EMBO journal.

[41]  A. Gautreau,et al.  Morphogenic Effects of Ezrin Require a Phosphorylation-Induced Transition from Oligomers to Monomers at the Plasma Membrane , 2000, The Journal of cell biology.

[42]  W. Jiang,et al.  Ezrin regulates cell-cell and cell-matrix adhesion, a possible role with E-cadherin/beta-catenin. , 1999, Journal of cell science.

[43]  Alexis Gautreau,et al.  Ezrin Is an Effector of Hepatocyte Growth Factor–mediated Migration and Morphogenesis in Epithelial Cells , 1997, The Journal of cell biology.

[44]  N. Sato,et al.  Perturbation of cell adhesion and microvilli formation by antisense oligonucleotides to ERM family members , 1994, The Journal of cell biology.

[45]  N. Sato,et al.  A gene family consisting of ezrin, radixin and moesin. Its specific localization at actin filament/plasma membrane association sites. , 1992, Journal of cell science.

[46]  J. Voorhees,et al.  Epithelial and Mesenchymal Cell Biology Collagen Fragmentation Promotes Oxidative Stress and Elevates Matrix Metalloproteinase-1 in Fibroblasts in Aged Human Skin Address Reprint Requests To , 2022 .