Biglycan expression in the melanoma microenvironment promotes invasiveness via increased tissue stiffness inducing integrin-β1 expression

Hana Andrlová, Justin Mastroianni, Josef Madl, Johannes S. Kern, Wolfgang Melchinger, Heide Dierbach, Florian Wernet, Marie Follo, Kristin Technau Hafsi, Cristina Has, Venugopal Rao Mittapalli, Marco Idzko, Ricarda Herr, Tilman Brummer, Hendrik Ungefroren, Hauke Busch, Melanie Boerries, Andreas Narr, Gabriele Ihorst, Claire VenninAnnette Schmitt-Graeff, Susana Minguet, Paul Timpson, Justus Duyster, Frank Meiss, Winfried Römer, Robert Zeiser

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53 Citations (Scopus)

Abstract

Novel targeted and immunotherapeutic approaches have revolutionized the treatment of metastatic melanoma. A better understanding of the melanomamicroenvironment, in particular the interaction of cells with extracellular matrix molecules, may help to further improve these new therapeutic strategies. We observed that the extracellular matrix molecule biglycan (Bgn) was expressed in certain human melanoma cells and primary fibroblasts when evaluated by microarraybased gene expression analysis. Bgn expression in the melanoma tissues correlated with low overall-survival and low progression-free-survival in patients. To understand the functional role of Bgn we used gene-targeted mice lacking functional Bgn. Here we observed that melanoma growth, metastasis-formation and tumor-related death were reduced in Bgn-/- mice compared to Bgn+/+ mice. In vitro invasion of melanoma cells into organotypic-matrices derived from Bgn-/- fibroblasts was reduced compared to melanoma invasion into Bgn-proficient matrices. Tissue stiffness as determined by atomic-force-microscopy was reduced in Bgn-/- matrices. Isolation of melanoma cells and fibroblasts from the stiffer Bgn+/+ matrices revealed an increase in integrin-β1 expression compared to the Bgn-/- fibroblast matrices. Overexpression of integrin-β1 in B16-melanoma cells abolished the survival benefit seen in Bgn-/- mice. Consistent with the studies performed in mice, the abundance of Bgn-expression in human melanoma samples positively correlated with the expression of integrin-β1, which is in agreement with results from the organotypic invasion-assay and the in vivo mouse studies. This study describes a novel role for Bgn-related tissue stiffness in the melanomamicroenvironment via regulation of integrin-β1 expression by melanoma cells in both mice and humans.

Original languageEnglish
Pages (from-to)42901-42916
Number of pages16
JournalOncotarget
Volume8
Issue number26
DOIs
Publication statusPublished - 2017
Externally publishedYes

Keywords

  • Biglycan
  • Integrin-β1
  • Melanoma
  • Microenvironment
  • Tissue stiffness

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