Transforming growth factor β1 and laminin-111 cooperate in the induction of interleukin-16 expression in synovial fibroblasts from patients with rheumatoid arthritis
- K Warstat1,
- M Hoberg2,
- M Rudert2,
- S Tsui3,
- T Pap4,
- B Angres5,
- M Essl6,
- T J Smith3,
- W W Cruikshank7,
- G Klein6,
- S Gay8,
- W K Aicher1
- 1Center for Regenerative Medicine and Department of Orthopaedic Surgery, Center for Medical Research, Tübingen, Germany
- 2Department of Orthopaedic Surgery, Technical University, Munich, Germany
- 3Department of Medicine, Harbor-UCLA Medical Center, Torrance, California, USA
- 4Division of Molecular Medicine of Musculoskeletal Tissue, University Hospital, Münster, Germany
- 5NMI Natural and Medical Sciences Institute at the University of Tübingen, Reutlingen, Germany
- 6Section for Transplantation Immunology and Immunohematology, Center for Medical Research, Tübingen, Germany
- 7Pulmonary Center, Boston University Medical Center, Boston, Massachusetts, USA
- 8Department of Rheumatology, University Hospital, Zürich, Switzerland
- Correspondence to Dr W K Aicher, ZMF Research Laboratories, Center for Regenerative Medicine and Department of Orthopaedic Surgery, University of Tübingen Medical School, Waldhoernle Strasse 22, D 72072 Tübingen, Germany; aicher{at}uni-tuebingen.de
- Accepted 23 February 2009
- Published Online First 10 March 2009
Abstract
Objectives: In synovial tissues of patients with rheumatoid arthritis (RA), strong expression of laminins and integrins co-localises with increased expression of inflammatory cytokines. Synovial fibroblasts (SF) contribute to the pathogenesis of RA through increased expression of cytokines and chemoattractant factors, one of which is interleukin-16 (IL16). A study was undertaken to investigate the regulatory pathways of IL16 in SF from patients with RA (RA-SF) and osteoarthritis (OA-SF).
Methods: SF were seeded in laminin-coated flasks and activated by the addition of cytokines. The expression of IL16 was investigated by quantitative RT-PCR, immunoblotting and ELISA; its biological activity was determined by a cell migration assay. Cell–matrix interactions were investigated by cell binding and attachment assays. Relevant intracellular signalling pathways were studied by immunoblotting and with pharmacological blocking reagents.
Results: Stimulation of SF with transforming growth factor β1 (TGF-β1) and growth on laminin-111 (LM-111) significantly increased the expression of IL16. Binding to LM-111 induced significantly more IL16 mRNA in RA-SF than in OA-SF (p<0.05). The IL16 cytokine was detected in supernatants of TGF-β1-activated and in LM-111+TGF-β1-activated RA-SF (38 to 62 pg/ml), but not in supernatants of OA-SF. This IL16 regulation involved p38MAPK, ERK1/2 and SMAD2 signalling, but not NFκB.
Conclusions: Binding of RA-SF to LM-111 in the presence of TGF-β1 triggers a significant IL16 response and thus may contribute to the infiltration of CD4+ lymphocytes into synovial tissues. This mode of IL16 induction represents a novel pathway leading to IL16 production in RA-SF but not in OA-SF, which operates independently of NFκB signalling.
Footnotes
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‣ Additional data are published online only at http://ard.bmj.com/content/vol69/issue1
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Funding This project was supported by DFG grants to WKA (Ai-16/10, -16/14, -16/19) and TP (DFG SFB492 TP19), by NIH grants to TJS (EY08976, EY11708 and DK063121) and in part by institutional funding.
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Competing interests None.
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Ethics approval This study was approved by the local ethics committee.
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Provenance and Peer review Not commissioned; externally peer reviewed.
