Literature DB >> 26725121

Stromal-Initiated Changes in the Bone Promote Metastatic Niche Development.

Xianmin Luo1, Yujie Fu1, Andrew J Loza2, Bhavna Murali1, Kathleen M Leahy1, Megan K Ruhland1, Margery Gang1, Xinming Su3, Ali Zamani4, Yu Shi4, Kory J Lavine5, David M Ornitz6, Katherine N Weilbaecher7, Fanxin Long8, Deborah V Novack9, Roberta Faccio10, Gregory D Longmore11, Sheila A Stewart12.   

Abstract

More than 85% of advanced breast cancer patients suffer from metastatic bone lesions, yet the mechanisms that facilitate these metastases remain poorly understood. Recent studies suggest that tumor-derived factors initiate changes within the tumor microenvironment to facilitate metastasis. However, whether stromal-initiated changes are sufficient to drive increased metastasis in the bone remains an open question. Thus, we developed a model to induce reactive senescent osteoblasts and found that they increased breast cancer colonization of the bone. Analysis of senescent osteoblasts revealed that they failed to mineralize bone matrix and increased local osteoclastogenesis, the latter process being driven by the senescence-associated secretory phenotype factor, IL-6. Neutralization of IL-6 was sufficient to limit senescence-induced osteoclastogenesis and tumor cell localization to bone, thereby reducing tumor burden. Together, these data suggest that a reactive stromal compartment can condition the niche, in the absence of tumor-derived signals, to facilitate metastatic tumor growth in the bone.
Copyright © 2016 The Authors. Published by Elsevier Inc. All rights reserved.

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Year:  2015        PMID: 26725121      PMCID: PMC4706805          DOI: 10.1016/j.celrep.2015.12.016

Source DB:  PubMed          Journal:  Cell Rep            Impact factor:   9.423


  36 in total

1.  Fluorescence-based staining for tartrate-resistant acidic phosphatase (TRAP) in osteoclasts combined with other fluorescent dyes and protocols.

Authors:  Luis Filgueira
Journal:  J Histochem Cytochem       Date:  2004-03       Impact factor: 2.479

Review 2.  Building strong bones: molecular regulation of the osteoblast lineage.

Authors:  Fanxin Long
Journal:  Nat Rev Mol Cell Biol       Date:  2011-12-22       Impact factor: 94.444

3.  A biomarker that identifies senescent human cells in culture and in aging skin in vivo.

Authors:  G P Dimri; X Lee; G Basile; M Acosta; G Scott; C Roskelley; E E Medrano; M Linskens; I Rubelj; O Pereira-Smith
Journal:  Proc Natl Acad Sci U S A       Date:  1995-09-26       Impact factor: 11.205

4.  Osteoblast isolation from murine calvaria and long bones.

Authors:  Astrid D Bakker; Jenneke Klein-Nulend
Journal:  Methods Mol Biol       Date:  2012

5.  Circulating tumour cells in non-metastatic breast cancer: a prospective study.

Authors:  Anthony Lucci; Carolyn S Hall; Ashutosh K Lodhi; Anirban Bhattacharyya; Amber E Anderson; Lianchun Xiao; Isabelle Bedrosian; Henry M Kuerer; Savitri Krishnamurthy
Journal:  Lancet Oncol       Date:  2012-06-06       Impact factor: 41.316

6.  Novel tool to suppress cell proliferation in vivo demonstrates that myocardial and coronary vascular growth represent distinct developmental programs.

Authors:  Kory J Lavine; Gregory J Schmid; Craig S Smith; David M Ornitz
Journal:  Dev Dyn       Date:  2008-03       Impact factor: 3.780

Review 7.  The senescence-associated secretory phenotype: the dark side of tumor suppression.

Authors:  Jean-Philippe Coppé; Pierre-Yves Desprez; Ana Krtolica; Judith Campisi
Journal:  Annu Rev Pathol       Date:  2010       Impact factor: 23.472

Review 8.  Four faces of cellular senescence.

Authors:  Francis Rodier; Judith Campisi
Journal:  J Cell Biol       Date:  2011-02-14       Impact factor: 10.539

9.  Carcinoma-associated fibroblasts direct tumor progression of initiated human prostatic epithelium.

Authors:  A F Olumi; G D Grossfeld; S W Hayward; P R Carroll; T D Tlsty; G R Cunha
Journal:  Cancer Res       Date:  1999-10-01       Impact factor: 12.701

10.  Senescence-associated secretory phenotypes reveal cell-nonautonomous functions of oncogenic RAS and the p53 tumor suppressor.

Authors:  Jean-Philippe Coppé; Christopher K Patil; Francis Rodier; Yu Sun; Denise P Muñoz; Joshua Goldstein; Peter S Nelson; Pierre-Yves Desprez; Judith Campisi
Journal:  PLoS Biol       Date:  2008-12-02       Impact factor: 8.029
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  47 in total

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Review 2.  Targeting Cell Senescence for the Treatment of Age-Related Bone Loss.

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Review 3.  Hallmarks of Bone Metastasis.

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Journal:  Calcif Tissue Int       Date:  2017-11-14       Impact factor: 4.333

4.  Inhibition of the Stromal p38MAPK/MK2 Pathway Limits Breast Cancer Metastases and Chemotherapy-Induced Bone Loss.

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Journal:  Cancer Res       Date:  2018-08-09       Impact factor: 12.701

Review 5.  Metastasis as a systemic disease: molecular insights and clinical implications.

Authors:  Maša Alečković; Sandra S McAllister; Kornelia Polyak
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6.  Improved Dose-Response Relationship of (+)-Discodermolide-Taxol Hybrid Congeners.

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7.  The Osteogenic Niche Is a Calcium Reservoir of Bone Micrometastases and Confers Unexpected Therapeutic Vulnerability.

Authors:  Hai Wang; Lin Tian; Jun Liu; Amit Goldstein; Igor Bado; Weijie Zhang; Benjamin R Arenkiel; Zonghai Li; Meng Yang; Shiyu Du; Hong Zhao; David R Rowley; Stephen T C Wong; Zbigniew Gugala; Xiang H-F Zhang
Journal:  Cancer Cell       Date:  2018-11-12       Impact factor: 31.743

8.  Therapy-Induced Senescence Drives Bone Loss.

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9.  Three dimensional engineered models to study hypoxia biology in breast cancer.

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Review 10.  Senescent cells: an emerging target for diseases of ageing.

Authors:  Bennett G Childs; Martina Gluscevic; Darren J Baker; Remi-Martin Laberge; Dan Marquess; Jamie Dananberg; Jan M van Deursen
Journal:  Nat Rev Drug Discov       Date:  2017-07-21       Impact factor: 84.694
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