Literature DB >> 25113547

Digging a little deeper: the stages of invadopodium formation and maturation.

Brian T Beaty1, John Condeelis2.   

Abstract

Invadopodia are actin-rich protrusions that degrade the extracellular matrix and are required for penetration through the basement membrane, stromal invasion and intravasation. Invadopodia are enriched in actin regulators, such as cortactin, cofilin, N-WASp, Arp2/3 and fascin. Much of the work to date has centered around identifying the proteins involved in regulating actin polymerization and matrix degradation. Recently, there have been significant advances in characterization of the very early stages of invadopodium precursor assembly and the role of adhesion proteins, such as β1 integrin, talin, FAK and Hic-5, in promoting invadopodium maturation. This review summarizes these findings in the context of our current model of invadopodial function and highlights some of the important unanswered questions in the field.
Copyright © 2014 The Authors. Published by Elsevier GmbH.. All rights reserved.

Entities:  

Keywords:  Arg; Cdc42; Cofilin; Invadopodia; Invasion; Metastasis; Moesin; NHE-1; Talin; β1 integrin

Mesh:

Substances:

Year:  2014        PMID: 25113547      PMCID: PMC4262566          DOI: 10.1016/j.ejcb.2014.07.003

Source DB:  PubMed          Journal:  Eur J Cell Biol        ISSN: 0171-9335            Impact factor:   4.492


  90 in total

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Authors:  Keith Q Tanis; Darren Veach; Henry S Duewel; William G Bornmann; Anthony J Koleske
Journal:  Mol Cell Biol       Date:  2003-06       Impact factor: 4.272

2.  Mechanism of actin filament turnover by severing and nucleation at different concentrations of ADF/cofilin.

Authors:  Ernesto Andrianantoandro; Thomas D Pollard
Journal:  Mol Cell       Date:  2006-10-06       Impact factor: 17.970

3.  Diaphanous-related formins are required for invadopodia formation and invasion of breast tumor cells.

Authors:  Floria Lizárraga; Renaud Poincloux; Maryse Romao; Guillaume Montagnac; Gaëlle Le Dez; Isabelle Bonne; Guillem Rigaill; Graça Raposo; Philippe Chavrier
Journal:  Cancer Res       Date:  2009-03-10       Impact factor: 12.701

4.  WAVE2- and microtubule-dependent formation of long protrusions and invasion of cancer cells cultured on three-dimensional extracellular matrices.

Authors:  Keiji Kikuchi; Kazuhide Takahashi
Journal:  Cancer Sci       Date:  2008-09-15       Impact factor: 6.716

Review 5.  Degrading devices: invadosomes in proteolytic cell invasion.

Authors:  Stefan Linder; Christiane Wiesner; Mirko Himmel
Journal:  Annu Rev Cell Dev Biol       Date:  2011-07-21       Impact factor: 13.827

6.  Cdc42-interacting protein 4 is a Src substrate that regulates invadopodia and invasiveness of breast tumors by promoting MT1-MMP endocytosis.

Authors:  Jinghui Hu; Alka Mukhopadhyay; Peter Truesdell; Harish Chander; Utpal K Mukhopadhyay; Alan S Mak; Andrew W B Craig
Journal:  J Cell Sci       Date:  2011-04-26       Impact factor: 5.285

7.  Synergistic interaction between the Arp2/3 complex and cofilin drives stimulated lamellipod extension.

Authors:  Vera DesMarais; Frank Macaluso; John Condeelis; Maryse Bailly
Journal:  J Cell Sci       Date:  2004-07-15       Impact factor: 5.285

8.  Focal adhesions are sites of integrin extension.

Authors:  Janet A Askari; Christopher J Tynan; Stephen E D Webb; Marisa L Martin-Fernandez; Christoph Ballestrem; Martin J Humphries
Journal:  J Cell Biol       Date:  2010-03-15       Impact factor: 10.539

9.  PyK2 and FAK connections to p190Rho guanine nucleotide exchange factor regulate RhoA activity, focal adhesion formation, and cell motility.

Authors:  Yangmi Lim; Ssang-Taek Lim; Alok Tomar; Margaret Gardel; Joie A Bernard-Trifilo; Xiao Lei Chen; Sean A Uryu; Rafaela Canete-Soler; Jinbin Zhai; Hong Lin; William W Schlaepfer; Perihan Nalbant; Gary Bokoch; Dusko Ilic; Clare Waterman-Storer; David D Schlaepfer
Journal:  J Cell Biol       Date:  2008-01-14       Impact factor: 10.539

10.  Talin regulates moesin-NHE-1 recruitment to invadopodia and promotes mammary tumor metastasis.

Authors:  Brian T Beaty; Yarong Wang; Jose Javier Bravo-Cordero; Ved P Sharma; Veronika Miskolci; Louis Hodgson; John Condeelis
Journal:  J Cell Biol       Date:  2014-06-02       Impact factor: 10.539
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  83 in total

1.  Sorting nexin 9 negatively regulates invadopodia formation and function in cancer cells.

Authors:  Nawal Bendris; Carrie J S Stearns; Carlos R Reis; Jaime Rodriguez-Canales; Hui Liu; Agnieszka W Witkiewicz; Sandra L Schmid
Journal:  J Cell Sci       Date:  2016-06-08       Impact factor: 5.285

2.  MicroRNA-375 Suppresses Extracellular Matrix Degradation and Invadopodial Activity in Head and Neck Squamous Cell Carcinoma.

Authors:  Lizandra Jimenez; Ved P Sharma; John Condeelis; Thomas Harris; Thomas J Ow; Michael B Prystowsky; Geoffrey Childs; Jeffrey E Segall
Journal:  Arch Pathol Lab Med       Date:  2015-07-14       Impact factor: 5.534

Review 3.  Nanoparticle Interactions with the Tumor Microenvironment.

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Journal:  Bioconjug Chem       Date:  2019-09-05       Impact factor: 4.774

4.  A distinct talin2 structure directs isoform specificity in cell adhesion.

Authors:  Erumbi S Rangarajan; Marina C Primi; Lesley A Colgan; Krishna Chinthalapudi; Ryohei Yasuda; Tina Izard
Journal:  J Biol Chem       Date:  2020-06-30       Impact factor: 5.157

5.  Transient mechanical strain promotes the maturation of invadopodia and enhances cancer cell invasion in vitro.

Authors:  Alexander N Gasparski; Snehal Ozarkar; Karen A Beningo
Journal:  J Cell Sci       Date:  2017-04-26       Impact factor: 5.285

6.  TKS5-positive invadopodia-like structures in human tumor surgical specimens.

Authors:  Yu-Chuan Chen; Matthew Baik; Joshua T Byers; Kathryn T Chen; Samuel W French; Begoña Díaz
Journal:  Exp Mol Pathol       Date:  2018-11-12       Impact factor: 3.362

7.  The SHCA adapter protein cooperates with lipoma-preferred partner in the regulation of adhesion dynamics and invadopodia formation.

Authors:  Alex Kiepas; Elena Voorand; Julien Senecal; Ryuhjin Ahn; Matthew G Annis; Kévin Jacquet; George Tali; Nicolas Bisson; Josie Ursini-Siegel; Peter M Siegel; Claire M Brown
Journal:  J Biol Chem       Date:  2020-04-16       Impact factor: 5.157

8.  Functional Dysregulation of CDC42 Causes Diverse Developmental Phenotypes.

Authors:  Simone Martinelli; Oliver H F Krumbach; Francesca Pantaleoni; Simona Coppola; Ehsan Amin; Luca Pannone; Kazem Nouri; Luciapia Farina; Radovan Dvorsky; Francesca Lepri; Marcel Buchholzer; Raphael Konopatzki; Laurence Walsh; Katelyn Payne; Mary Ella Pierpont; Samantha Schrier Vergano; Katherine G Langley; Douglas Larsen; Kelly D Farwell; Sha Tang; Cameron Mroske; Ivan Gallotta; Elia Di Schiavi; Matteo Della Monica; Licia Lugli; Cesare Rossi; Marco Seri; Guido Cocchi; Lindsay Henderson; Berivan Baskin; Mariëlle Alders; Roberto Mendoza-Londono; Lucie Dupuis; Deborah A Nickerson; Jessica X Chong; Naomi Meeks; Kathleen Brown; Tahnee Causey; Megan T Cho; Stephanie Demuth; Maria Cristina Digilio; Bruce D Gelb; Michael J Bamshad; Martin Zenker; Mohammad Reza Ahmadian; Raoul C Hennekam; Marco Tartaglia; Ghayda M Mirzaa
Journal:  Am J Hum Genet       Date:  2018-01-25       Impact factor: 11.025

9.  Talin2-mediated traction force drives matrix degradation and cell invasion.

Authors:  Lei Qi; Naser Jafari; Xiang Li; Zaozao Chen; Liqing Li; Vesa P Hytönen; Benjamin T Goult; Chang-Guo Zhan; Cai Huang
Journal:  J Cell Sci       Date:  2016-10-01       Impact factor: 5.285

Review 10.  Epithelial-to-mesenchymal transition in thyroid cancer: a comprehensive review.

Authors:  Heewa Shakib; Sadegh Rajabi; Mohammad Hossien Dehghan; Farideh Jalali Mashayekhi; Nahid Safari-Alighiarloo; Mehdi Hedayati
Journal:  Endocrine       Date:  2019-08-04       Impact factor: 3.633
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