Sylke Kaltenhäuser scite author profile

Monocytes and monocytic cells produce proinflammatory cytokines upon direct cell contact with activated T cells. In the autoimmune disease rheumatoid arthritis, the pivotal role of TNF-α implies that the interaction between transmembrane TNF-α (mTNF) and the TNF receptors (TNFR1 and TNFR2) might participate in the T cell contact-dependent activation of monocytes. Accordingly, treatment of rheumatoid arthritis by administration of a TNF-α-blocking Ab was found to significantly decrease TNF-α production by monocytes. Several lines of evidence indicated that signaling through TNFR1/2 and through mTNF (reverse signaling) is involved in TNF-α production by monocytes after T cell contact: 1) blocking mTNF on activated T cells leads to a significant reduction in TNF-α production; 2) down-regulation of TNFR1/2 on monocytes by transfection with small interfering RNA results in diminished TNF-α production; 3) blocking or down-regulating TNFR2 on activated T cells inhibits TNF-α production, indicating that mTNF on the monocyte surface mediates signaling; 4) ligation of mTNF on monocytes by surface TNFR2 transfected into resting T cells induces TNF-α production due to reverse signaling by mTNF; and 5) ligation of mTNF on monocytes by a soluble TNFR2:Ig receptor construct induces TNF-α production due to reverse signaling. In conclusion, we identified mTNF and TNFR1/2 as interaction partners contributing to TNF-α production in monocytes. Both pathways initiated by mTNF-TNFR interaction are likely to be inhibited by treatment with anti-TNF-α Abs.

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HLA markers and prediction of clinical course and outcome in rheumatoid arthritis

Wagner

Kaltenhäuser

Sauer

et al. 1997

Arthritis & Rheumatism

140

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Objective. To evaluate HLA markers as early prognostic factors for disease severity in rheumatoid arthritis (RA).Methods. HLA genotyping was carried out in a retrospective analysis of 66 RA patients and in a prospective study of 55 RA patients and 87 healthy controls using polymerase chain reaction-based methods for HLA-DRB1 specificities, DR4 alleles, and their linked DQBl alleles, as well as HLA-B27. The clinical course of RA was assessed by clinical and radiologic scores. The impact of HLA markers was evaluated by epidemiologic means in addition to modeling using multiple logistic regression analysis.Results. Shared epitope-positive (HVR3+) DR4 alleles and the HVR3 amino acid cassette QKRAA were associated with RA in both longstanding (relative risk [RR] 3.34 and 3.19) and recent-onset (RR 2.1 and 2.37) RA. In longstanding RA, radiologic evidence of severe joint destruction (Larsen score >1.62) was seen more often in HVR3 shared epitopc+positive patients than in epitope-negative patients (odds ratio [OR] = 25.67, 2 = 13.59, P = 0.0003). Moreover, rank sum analysis of Larsen indices indicated significantly higher ranking for the presence of the RA-associated HVR3 cassettes (QKRAA, QRRAA) when expressed on a DR4 allele (P < 0.0001). In the prospective study, DR4-positive pa- tients had a significantly increased risk (OR = 13.75, P = 0.00083) of developing bony erosions. In addition, HVR3 epitope-positive DR4-positive individuals had significantly higher Larsen indices than did epitopenegative patients (P = 0.0083). In particular, the presence of the HVR3 epitope on DR4 resulted in an increased a posteriori likelihood (0.91) of developing early erosive disease compared with an a priori risk of 0.62. Conversely, the likelihood decreased to a minimum of 0.35 when the HVR3 epitope was absent.

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Clonally expanded CD4⁺CD28^null T cells in rheumatoid arthritis use distinct combinations of T cell receptor BV and BJ elements

et al. 2002

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Clonally expanded, autoreactive CD4 + CD28null cells can be found in the peripheral blood of patients with rheumatoid arthritis and have been shown to be associated with severe extraarticular disease manifestations. We investigated the size of the CD4 + CD28null compartment and the TCR g chain repertoire of expanded CD4 + clonotypes in 94 rheumatoid arthritis patients by complementarity-determining region 3 (CDR3) length analysis (spectratyping) in the BV6 and BV14 TCR families, with primers specific for three arbitrarily chosen g chain joining elements (BJ1S2, BJ2S3 and BJ2S7). The spectratyping results showed a strong correlation of the size of the CD4 + CD28 null compartment with the detected number of BV14 clonotypes, whereas no association with BV6 oligoclonality was found. Only clones using the BV14-BJ1S2 and BV14-BJ2S3 combinations contributed to this correlation, however, whereas BV14-BJ2S7 clones did not. This preferential correlation implies a role for the TCR g chain in stimulating clonal outgrowth and argues against the previously suggested superantigenic stimulation of in-vivo-expanded clones. Instead, since no evidence for shared antigen specificity could be detected, clonal expansion of T cells in rheumatoid arthritis might be influenced by the BJ elements because of changes in the flexibility of the protein backbone of the g -chain.

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Antibodies against cyclic citrullinated peptide are associated with the DRB1 shared epitope and predict joint erosion in rheumatoid arthritis

Kaltenhäuser¹,

Pierer²,

Arnold³

et al. 2006

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Ex Vivo Homeostatic Proliferation of CD4+ T Cells in Rheumatoid Arthritis Is Dysregulated and Driven by Membrane-Anchored TNFα

Wagner

Pierer

Wahle

et al. 2004

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The systemic CD4+ T cell compartment in patients with rheumatoid arthritis (RA) is characterized by TCR repertoire contraction, shortened telomere lengths, and decreased numbers of recent thymic emigrants, suggesting a disturbed CD4+ T cell homeostasis. In mice, homeostatic proliferation of peripheral CD4+ T cells is regulated by TCR interaction with self peptide-MHC complexes (pMHC) and can be reproduced in vitro. We have established an ex vivo model of homeostatic proliferation, in which self-replication of human CD4+ T cells is induced by cell-cell contact with autologous monocytes. In healthy individuals, blockade of TCR-pMHC class II contact resulted in decreased CD4+ T cell division. In contrast, homeostatic proliferation in RA patients was not inhibited by pMHC blockade, but increased during the initial culture period. The anti-TNF-α Ab cA2 inhibited homeostasis-driven ex vivo proliferation in healthy controls and in RA patients. In addition, treatment of RA patients with infliximab decreased the ex vivo rate of homeostatic proliferation of CD4+ T cells. Our results suggest a disturbed regulation of CD4+ T cell homeostasis leading to the repertoire aberrations reported in RA. Membrane-anchored TNF-α appears to be a cell-cell contact-dependent stimulus of homeostatic proliferation of CD4+ T cells, possibly favoring self-replication of autoreactive CD4+ T cells in patients with RA.

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