Decoy Receptor 3 Regulates the Expression of Tryptophan Hydroxylase TPH1 in Rheumatoid Synovial Fibroblasts

Toshihisa Maeda¹, Yasushi Miura², Koji Fukuda³, Shinya Hayashi⁴ and Masahiro Kurosaka¹, ¹Department of Orthopaedic Surgery, Kobe University Graduate School of Medicine, Kobe, Japan, ²Department of Rehabilitation Science, Graduate School of Health Sciences, Kobe University, Kobe, Japan, ³Dept. of Orthopaedic Surgery, Kobe University Graduate School of Medicine, Kobe, Japan, ⁴Orthopaedic Surgery, Kobe University Graduate School of Medicine, Kobe, Japan

Meeting: 2013 ACR/ARHP Annual Meeting

Keywords: bone metabolism, inflammatory cytokines, osteoarthritis and rheumatoid arthritis, synovium

Session Information

Title: Rheumatoid Arthritis - Human Etiology and Pathogenesis

Session Type: Abstract Submissions (ACR)

Background/Purpose:

Tryptophan hydroxylase (TPH) which catalyzes the hydroxylation of L-tryptophan is the rate-limiting enzyme involved in the synthesis of serotonin. TPH has two isoforms; TPH1 expresses in peripheral and central nerve system (CNS) tissues expressing serotonin, such as skin, intestine, and pineal gland, while TPH2 expresses exclusively and dominantly in CNS. Recently several studies suggested that serotonergic systems play an important role in modulating inflammatory pain and bone remodeling. We previously reported that decoy receptor 3 (DcR3), a member of TNF receptor superfamily, overexpressed in rheumatoid synovial fibroblasts (RA-FLS) stimulated with TNFα inhibits Fas-induced apoptosis. We recently reported that DcR3 induced VLA-4 expression in THP-1 macrophages to inhibit cycloheximide-induced apoptosis, and that DcR3 inhibited cell proliferation induced by TNFα or IL-1β via TL1A expressed on RA-FLS. We also reported that the concentration of DcR3 in sera and joint fluids of patients with RA was significantly higher than those with osteoarthritis (OA).

Further, by using comprehensive genetic analysis using microarrays, we newly identified TPH1 as one of the genes of which expression in RA-FLS was suppressed by DcR3.

Therefore, in this study, we investigated the expression of TPH1 in RA and OA-FLS stimulated with DcR3 and inflammatory cytokines to elucidate the involvement of TPH1 and DcR3 in the pathogenesis of RA.

Methods:

Real-time polymerase chain reaction (real-time PCR). Primary cultured RA or OA-FLS were incubated with 1.0 µg/ml recombinant human DcR3-Fc protein or 1.0 µg/ml control IgG1 for 12 hours, or 1.0 ng/ml recombinant human TNFα or 1.0 ng/ml IL-1β for 24 hours, then the relative expression levels of TPH1 mRNA were quantified by real-time PCR.

Immunohistochemistry. Serotonin expressed in rheumatoid synovial tissues was detected by immunohistochemistry.

Results:

TPH1 mRNA was expressed in both RA and OA-FLS. TPH1 mRNA expression was decreased significantly by DcR3 in RA-FLS, but not in OA-FLS. Meanwhile, TPH1 mRNA expression was significantly decreased by TNFα or IL-1β both in RA and OA-FLS. Immunohistochemistry confirmed that serotonin was present in multi-layered synovial lining cells.

Conclusion:

In this study, we first revealed that TPH1 in RA-FLS was suppressed by DcR3 in a disease-specific fashion. Therefore, TPH1 in RA-FLS regulated by DcR3 may affect serotonin expression to be involved in the pathogenesis of RA, such as modulating inflammatory pain and bone remodeling. Both DcR3 and TPH1 could be a possible therapeutic target of RA.

Disclosure:

T. Maeda,
None;

Y. Miura,
None;

K. Fukuda,
None;

S. Hayashi,
None;

M. Kurosaka,
None.

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