Sulfated hyaluronan attenuates inflammatory signaling pathways in macrophages involving induction of antioxidants

Research output: Contribution to journalResearch articleContributedpeer-review

Contributors

  • Florent Jouy - , Helmholtz Centre for Environmental Research (First author)
  • Nadine Lohmann - , Leipzig University (Author)
  • Elke Wandel - , Leipzig University (Author)
  • Gloria Ruiz-Gómez - , Structural Bioinformatics (Research Group), Biotechnology Center (BIOTEC) (Author)
  • M Teresa Pisabarro - , Structural Bioinformatics (Research Group), Biotechnology Center (BIOTEC) (Author)
  • Annette G Beck-Sickinger - , Spanish National Research Council (CSIC) (Author)
  • Matthias Schnabelrauch - , Innovent e.V. (Author)
  • Stephanie Möller - , Innovent e.V. (Author)
  • Jan C Simon - , Leipzig University (Author)
  • Stefan Kalkhof - , Helmholtz Centre for Environmental Research (Author)
  • Martin von Bergen - , Helmholtz Centre for Environmental Research (Author)
  • Sandra Franz - , Leipzig University (Author)

Abstract

It is well recognized that high molecular weight hyaluronan (H-HA) exerts potent anti-inflammatory effects while its fragmentation into low molecular weight HA (L-HA) is discussed to promote inflammation. Chemical modification of HA with sulfate groups has been shown to foster its anti-inflammatory activity which seems to be maintained in sulfated low molecular weight HA derivatives (sL-HA). However, the molecular mechanisms by which sL-HA produces its anti-inflammatory activity are not understood. In this study, we used global quantitative proteomics combined with targeted analysis of key proteins to characterize the effect of sL-HA on fully differentiated human inflammatory macrophages (iMФ). Culture of iMФ with sL-HA did not affect cell viability but resulted in a reduced pro-inflammatory cytokine response of iMФ after activation indicating a profound counter-regulation of their initial inflammatory phenotype. Rapid internalization of sL-HA involving CD44 and scavenger receptors was observed. Furthermore, an upregulation of the antioxidants SOD2 and SOD3 was found while no oxidative stress was induced. Consequently, activity of transcription factors for inflammatory gene expression was downregulated in iMФ with sL-HA after activation whereas anti-inflammatory proteins were induced. This study proves anti-inflammatory properties of sL-HA and provides information on its regulatory mode of action on iMФ.

Details

Original languageEnglish
Article numbere1700082
JournalProteomics
Volume17
Issue number10
Publication statusPublished - May 2017
Peer-reviewedYes

External IDs

Scopus 85019612948

Keywords

Library keywords