TNF-Stimulated Gene-6 Is a Key Regulator in Switching Stemness and Biological Properties of Mesenchymal Stem Cells

Research output: Contribution to journalArticle

  • External authors:
  • Barbara Romano
  • Sudharshan Elangovan
  • Marco Erreni
  • Emanuela Sala
  • Luciana Petti
  • Paolo Kunderfranco
  • Luca Massimino
  • Silvia Restelli
  • Shruti Sinha
  • Donatella Lucchetti
  • Achille Anselmo
  • Federico Simone Colombo
  • Matteo Stravalaci
  • Vincenzo Arena
  • Silvia D'Alessio
  • Federica Ungaro
  • Antonio Inforzato
  • Angelo A. Izzo
  • Alessandro Sgambato
  • Stefania Vetrano

Abstract

Mesenchymal stem cells (MSCs) are well established to have promising therapeutic properties. TNF-stimulated gene-6 (TSG-6), a potent tissue-protective and anti-inflammatory factor, has been demonstrated to be responsible for a significant part of the tissue-protecting properties mediated by MSCs. Nevertheless, current knowledge about the biological function of TSG-6 in MSCs is limited. Here, we demonstrated that TSG-6 is a crucial factor that influences many functional properties of MSCs. The transcriptomic sequencing analysis of wild-type (WT) and TSG-6 −/− -MSCs shows that the loss of TSG-6 expression leads to the perturbation of several transcription factors, cytokines, and other key biological pathways. TSG-6 −/− -MSCs appeared morphologically different with dissimilar cytoskeleton organization, significantly reduced size of extracellular vesicles, decreased cell proliferative rate, and loss of differentiation abilities compared with the WT cells. These cellular effects may be due to TSG-6-mediated changes in the extracellular matrix (ECM) environment. The supplementation of ECM with exogenous TSG-6, in fact, rescued cell proliferation and changes in morphology. Importantly, TSG-6-deficient MSCs displayed an increased capacity to release interleukin-6 conferring pro-inflammatory and pro-tumorigenic properties to the MSCs. Overall, our data provide strong evidences that TSG-6 is crucial for the maintenance of stemness and other biological properties of murine MSCs. Stem Cells 2019.

Bibliographical metadata

Original languageEnglish
JournalStem Cells
Early online date3 Apr 2019
DOIs
Publication statusPublished - 14 May 2019

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