Reprogramming normal cells into tumour precursors requires ECM stiffness and oncogene-mediated changes of cell mechanical properties

被引:0
|
作者
Tito Panciera
Anna Citron
Daniele Di Biagio
Giusy Battilana
Alessandro Gandin
Stefano Giulitti
Mattia Forcato
Silvio Bicciato
Valeria Panzetta
Sabato Fusco
Luca Azzolin
Antonio Totaro
Angelo Paolo Dei Tos
Matteo Fassan
Vincenzo Vindigni
Franco Bassetto
Antonio Rosato
Giovanna Brusatin
Michelangelo Cordenonsi
Stefano Piccolo
机构
[1] University of Padua School of Medicine,Department of Molecular Medicine
[2] University of Padua,Department of Industrial Engineering and INSTM
[3] University of Modena and Reggio Emilia,Center for Genome Research, Department of Life Sciences
[4] University of Naples Federico II,Interdisciplinary Research Centre on Biomaterials, CRIB
[5] Istituto Italiano di Tecnologia,Center for Advanced Biomaterials for Health Care IIT@CRIB
[6] Surgical Pathology and Cytopathology Unit,Department of Medicine (DIMED)
[7] Padua University Hospital,Clinic of Plastic Surgery
[8] University of Padua School of Medicine,Istituto Oncologico Veneto IOV
[9] IFOM,IRCCS, and Department of Surgery, Oncology and Gastroenterology
[10] The FIRC Institute of Molecular Oncology,undefined
来源
Nature Materials | 2020年 / 19卷
关键词
D O I
暂无
中图分类号
学科分类号
摘要
Defining the interplay between the genetic events and microenvironmental contexts necessary to initiate tumorigenesis in normal cells is a central endeavour in cancer biology. We found that receptor tyrosine kinase (RTK)–Ras oncogenes reprogram normal, freshly explanted primary mouse and human cells into tumour precursors, in a process requiring increased force transmission between oncogene-expressing cells and their surrounding extracellular matrix. Microenvironments approximating the normal softness of healthy tissues, or blunting cellular mechanotransduction, prevent oncogene-mediated cell reprogramming and tumour emergence. However, RTK–Ras oncogenes empower a disproportional cellular response to the mechanical properties of the cell’s environment, such that when cells experience even subtle supra-physiological extracellular-matrix rigidity they are converted into tumour-initiating cells. These regulations rely on YAP/TAZ mechanotransduction, and YAP/TAZ target genes account for a large fraction of the transcriptional responses downstream of oncogenic signalling. This work lays the groundwork for exploiting oncogenic mechanosignalling as a vulnerability at the onset of tumorigenesis, including tumour prevention strategies.
引用
收藏
页码:797 / 806
页数:9
相关论文
共 3 条
  • [1] Reprogramming normal cells into tumour precursors requires ECM stiffness and oncogene-mediated changes of cell mechanical properties
    Panciera, Tito
    Citron, Anna
    Di Biagio, Daniele
    Battilana, Giusy
    Gandin, Alessandro
    Giulitti, Stefano
    Forcato, Mattia
    Bicciato, Silvio
    Panzetta, Valeria
    Fusco, Sabato
    Azzolin, Luca
    Totaro, Antonio
    Dei Tos, Angelo Paolo
    Fassan, Matteo
    Vindigni, Vincenzo
    Bassetto, Franco
    Rosato, Antonio
    Brusatin, Giovanna
    Cordenonsi, Michelangelo
    Piccolo, Stefano
    NATURE MATERIALS, 2020, 19 (07) : 797 - +
  • [2] Publisher Correction: Reprogramming normal cells into tumour precursors requires ECM stiffness and oncogene-mediated changes of cell mechanical properties
    Tito Panciera
    Anna Citron
    Daniele Di Biagio
    Giusy Battilana
    Alessandro Gandin
    Stefano Giulitti
    Mattia Forcato
    Silvio Bicciato
    Valeria Panzetta
    Sabato Fusco
    Luca Azzolin
    Antonio Totaro
    Angelo Paolo Dei Tos
    Matteo Fassan
    Vincenzo Vindigni
    Franco Bassetto
    Antonio Rosato
    Giovanna Brusatin
    Michelangelo Cordenonsi
    Stefano Piccolo
    Nature Materials, 2020, 19 : 475 - 475
  • [3] Reprogramming normal cells into tumour precursors requires ECM stiffness and oncogene-mediated changes of cell mechanical properties (vol 15, pg 879, 2020)
    Panciera, Tito
    Citron, Anna
    Di Biagio, Daniele
    Battilana, Giusy
    Gandin, Alessandro
    Giulitti, Stefano
    Forcato, Mattia
    Bicciato, Silvio
    Panzetta, Valeria
    Fusco, Sabato
    Azzolin, Luca
    Totaro, Antonio
    Tos, Angelo Paolo Dei
    Fassan, Matteo
    Vindigni, Vincenzo
    Bassetto, Franco
    Rosato, Antonio
    Brusatin, Giovanna
    Cordenonsi, Michelangelo
    Piccolo, Stefano
    NATURE MATERIALS, 2020, 19 (04) : 475 - 475
1